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10 Famous Scientists and Their Contributions

Get to know the greatest scientists in the world. learn how these famous scientists changed the world as we know it through their contributions and discoveries..

From unraveling the mysteries of the cosmos to unearthing the origins of humanity, these famous scientists have not only expanded the boundaries of human knowledge but have also profoundly altered the way we live, work, and perceive the world around us. The relentless pursuit of knowledge by these visionary thinkers has propelled humanity forward in ways that were once unimaginable. 

These exceptional individuals have made an extraordinary impact on fields including physics, chemistry, biology, astronomy, and numerous others. Their contributions stand as a testament to the transformative power of human curiosity and the enduring impact of those who dared to ask questions, challenge the status quo, and change the world. Join us as we embark on a journey through the lives and legacies of the greatest scientists of all time.

1. Albert Einstein: The Whole Package

Albert Einstein was not only a scientific genius but also a figure of enduring popularity and intrigue. His remarkable contributions to science, which include the famous equation E = mc2 and the theory of relativity , challenged conventional notions and reshaped our understanding of the universe.

Born in Ulm, Germany, in 1879, Einstein was a precocious child. As a teenager, he wrote a paper on magnetic fields. (Einstein never actually failed math, contrary to popular lore.) His career trajectory began as a clerk in the Swiss Patent Office in 1905, where he published his four groundbreaking papers, including his famous equation, E = mc2, which described the relationship between matter and energy.

Contributions

Einstein's watershed year of 1905 marked the publication of his most important papers, addressing topics such as Brownian motion , the photoelectric effect and special relativity. His work in special relativity introduced the idea that space and time are interwoven, laying the foundation for modern astronomy. In 1916, he expanded on his theory of relativity with the development of general relativity, proposing that mass distorts the fabric of space and time.

Although Einstein received the Nobel Prize in Physics in 1921, it wasn't for his work on general relativity but rather for his discovery of the photoelectric effect. His contributions to science earned him a prestigious place in the scientific community.

Key Moment 

A crowd barged past dioramas, glass displays, and wide-eyed security guards in the American Museum of Natural History. Screams rang out as some runners fell and were trampled. Upon arriving at a lecture hall, the mob broke down the door.

The date was Jan. 8, 1930, and the New York museum was showing a film about Albert Einstein and his general theory of relativity. Einstein was not present, but 4,500 mostly ticketless people still showed up for the viewing. Museum officials told them “no ticket, no show,” setting the stage for, in the words of the Chicago Tribune , “the first science riot in history.”

Such was Einstein’s popularity. As a publicist might say, he was the whole package: distinctive look (untamed hair, rumpled sweater), witty personality (his quips, such as God not playing dice, would live on) and major scientific cred (his papers upended physics).

Read More: 5 Interesting Things About Albert Einstein

Einstein, who died of heart failure in 1955 , left behind a profound legacy in the world of science. His life's work extended beyond scientific discoveries, encompassing his role as a public intellectual, civil rights advocate, and pacifist.

Albert Einstein's theory of general relativity remains one of his most celebrated achievements. It predicted the existence of black holes and gravitational waves, with physicists recently measuring the waves from the collision of two black holes over a billion light-years away. General relativity also underpins the concept of gravitational lensing, enabling astronomers to study distant cosmic objects in unprecedented detail.

“Einstein remains the last, and perhaps only, physicist ever to become a household name,” says James Overduin, a theoretical physicist at Towson University in Maryland.

Einstein's legacy goes beyond his scientific contributions. He is remembered for his imaginative thinking, a quality that led to his greatest insights. His influence as a public figure and his advocacy for civil rights continue to inspire generations.

“I am enough of an artist to draw freely upon my imagination,” he said in a Saturday Evening Post interview. “Knowledge is limited. Imagination encircles the world.”

— Mark Barna

Read More: 20 Brilliant Albert Einstein Quotes

2. Marie Curie: She Went Her Own Way

Marie Curie's remarkable journey to scientific acclaim was characterized by determination and a thirst for knowledge. Living amidst poverty and political turmoil, her unwavering passion for learning and her contributions to the fields of physics and chemistry have made an everlasting impact on the world of science.

Marie Curie , born as Maria Salomea Sklodowska in 1867 in Warsaw, Poland, faced immense challenges during her early life due to both her gender and her family's financial struggles. Her parents, fervent Polish patriots, sacrificed their wealth in support of their homeland's fight for independence from Russian, Austrian, and Prussian rule. Despite these hardships, Marie's parents, who were educators themselves, instilled a deep love for learning and Polish culture in her.

Marie and her sisters were initially denied higher education opportunities due to societal restrictions and lack of financial resources. In response, Marie and her sister Bronislawa joined a clandestine organization known as the Flying University, aimed at providing Polish education, forbidden under Russian rule.

Marie Curie's path to scientific greatness began when she arrived in Paris in 1891 to pursue higher education. Inspired by the work of French physicist Henri Becquerel, who discovered the emissions of uranium, Marie chose to explore uranium's rays for her Ph.D. thesis. Her research led her to the groundbreaking discovery of radioactivity, revealing that matter could undergo atomic-level transformations.

Marie Curie collaborated with her husband, Pierre Curie, and together they examined uranium-rich minerals, ultimately discovering two new elements, polonium and radium. Their work was published in 1898, and within just five months, they announced the discovery of radium.

In 1903, Marie Curie, Pierre Curie, and Henri Becquerel were jointly awarded the Nobel Prize in Physics for their pioneering work in radioactivity. Marie became the first woman to receive a Nobel Prize, marking a historic achievement.

Read More: 5 Things You Didn't Know About Marie Curie

Tragedy struck in 1906 when Pierre Curie died suddenly in a carriage accident. Despite her grief, Marie Curie persevered and continued her research, taking over Pierre's position at the University of Paris. In 1911, she earned her second Nobel Prize, this time in Chemistry, for her remarkable contributions to the fields of polonium and radium.

Marie Curie's legacy extended beyond her Nobel Prizes. She made significant contributions to the fields of radiology and nuclear physics. She founded the Radium Institute in Paris, which produced its own Nobel laureates, and during World War I, she led France's first military radiology center, becoming the first female medical physicist.

Marie Curie died in 1934 from a type of anemia that likely stemmed from her exposure to such extreme radiation during her career. In fact, her original notes and papers are still so radioactive that they’re kept in lead-lined boxes, and you need protective gear to view them

Marie Curie's legacy endures as one of the greatest scientists of all time. She remains the only person to receive Nobel Prizes in two different scientific fields, a testament to her exceptional contributions to science. Her groundbreaking research in radioactivity revolutionized our understanding of matter and energy, leaving her mark on the fields of physics, chemistry, and medicine.

— Lacy Schley

Read More: Marie Curie: Iconic Scientist, Nobel Prize Winner … War Hero?

3. Isaac Newton: The Man Who Defined Science on a Bet

Isaac Newton was an English mathematician, physicist and astronomer who is widely recognized as one of the most influential scientists in history. He made groundbreaking contributions to various fields of science and mathematics and is considered one of the key figures in the scientific revolution of the 17th century.

Isaac Newton was born on Christmas Day in 1642. Despite being a sickly infant, his survival was an achievement in itself. Just 23 years later, with Cambridge University closed due to the plague, Newton embarked on groundbreaking discoveries that would bear his name. He invented calculus, a new form of mathematics, as part of his scientific journey.

Newton's introverted nature led him to withhold his findings for decades. It was only through the persistent efforts of his friend, Edmund Halley, who was famous for discovering comets, that Newton finally agreed to publish. Halley's interest was piqued due to a bet about planetary orbits, and Newton, having already solved the problem, astounded him with his answer.

Read More: 5 Eccentric Facts About Isaac Newton

The culmination of Newton's work was the "Philosophiæ Naturalis Principia Mathematica," commonly known as the Principia , published in 1687. This monumental work not only described the motion of planets and projectiles but also revealed the unifying force of gravity, demonstrating that it governed both heavenly and earthly bodies. Newton's laws became the key to unlocking the universe's mysteries.

Newton's dedication to academia was unwavering. He rarely left his room except to deliver lectures, even if it meant addressing empty rooms. His contributions extended beyond the laws of motion and gravitation to encompass groundbreaking work in optics, color theory, the development of reflecting telescopes bearing his name, and fundamental advancements in mathematics and heat.

In 1692, Newton faced a rare failure and experienced a prolonged nervous breakdown, possibly exacerbated by mercury poisoning from his alchemical experiments. Although he ceased producing scientific work, his influence in the field persisted.

Achievements

Newton spent his remaining three decades modernizing England's economy and pursuing criminals. In 1696, he received a royal appointment as the Warden of the Mint in London. Despite being viewed as a cushy job with a handsome salary, Newton immersed himself in the role. He oversaw the recoinage of English currency, provided economic advice, established the gold standard, and introduced ridged coins that prevented the tampering of precious metals. His dedication extended to pursuing counterfeiters vigorously, even infiltrating London's criminal networks , and witnessing their executions.

Newton's reputation among his peers was marred by his unpleasant demeanor. He had few close friends, never married, and was described as "insidious, ambitious, and excessively covetous of praise, and impatient of contradiction" by Astronomer Royal John Flamsteed. Newton held grudges for extended periods and engaged in famous feuds, notably with German scientist Gottfried Leibniz over the invention of calculus and English scientist Robert Hooke.

Isaac Newton's legacy endures as one of the world's greatest scientists. His contributions to physics, mathematics, and various scientific disciplines shifted human understanding. Newton's laws of motion and gravitation revolutionized the field of physics and continue to be foundational principles.

His work in optics and mathematics laid the groundwork for future scientific advancements. Despite his complex personality, Newton's legacy as a scientific visionary remains unparalleled.

How fitting that the unit of force is named after stubborn, persistent, amazing Newton, himself a force of nature.

— Bill Andrews

Read More: Isaac Newton, World's Most Famous Alchemist

4. Charles Darwin: Delivering the Evolutionary Gospel

Charles Darwin has become one of the world's most renowned scientists. His inspiration came from a deep curiosity about beetles and geology, setting him on a transformative path. His theory of evolution through natural selection challenged prevailing beliefs and left an enduring legacy that continues to shape the field of biology and our understanding of life on Earth.

Charles Darwin , an unlikely revolutionary scientist, began his journey with interests in collecting beetles and studying geology. As a young man, he occasionally skipped classes at the University of Edinburgh Medical School to explore the countryside. His path to becoming the father of evolutionary biology took an unexpected turn in 1831 when he received an invitation to join a world-spanning journey aboard the HMS Beagle .

During his five-year voyage aboard the HMS Beagle, Darwin observed and documented geological formations, various habitats and the diverse flora and fauna across the Southern Hemisphere. His observations led to a paradigm-shifting realization that challenged the prevailing Victorian-era theories of animal origins rooted in creationism. 

Darwin noticed subtle variations within the same species based on their environments, exemplified by the unique beak shapes of Galapagos finches adapted to their food sources. This observation gave rise to the concept of natural selection, suggesting that species could change over time due to environmental factors, rather than divine intervention.

Read More: 7 Things You May Not Know About Charles Darwin

Upon his return, Darwin was initially hesitant to publish his evolutionary ideas, instead focusing on studying his voyage samples and producing works on geology, coral reefs and barnacles. He married his first cousin, Emma Wedgwood, and they had ten children, with Darwin actively engaging as a loving and attentive father — an uncommon practice among eminent scientists of his era.

Darwin's unique interests in taxidermy , unusual food and his struggle with ill health did not deter him from his evolutionary pursuits. Over two decades, he meticulously gathered overwhelming evidence in support of evolution.

Publication

All of his observations and musings eventually coalesced into the tour de force that was On the Origin of Species , published in 1859 when Darwin was 50 years old. The 500-page book sold out immediately, and Darwin would go on to produce six editions, each time adding to and refining his arguments.

In non-technical language, the book laid out a simple argument for how the wide array of Earth’s species came to be. It was based on two ideas: that species can change gradually over time, and that all species face difficulties brought on by their surroundings. From these basic observations, it stands to reason that those species best adapted to their environments will survive and those that fall short will die out.

Despite facing fierce criticism from proponents of creationism and the religious establishment, Darwin's theory of natural selection and evolution eventually gained acceptance in the 1930s. His work revolutionized scientific thought and remains largely intact to this day.

His theory, meticulously documented and logically sound, has withstood the test of time and scrutiny. Jerry Coyne, a professor emeritus at the University of Chicago, emphasizes the profound impact of Darwin's theory, stating that it "changed people’s views in so short a time" and that "there’s nothing you can really say to go after the important aspects of Darwin’s theory." 

— Nathaniel Scharping

Read More: 8 Inspirational Sayings From Charles Darwin

5. Nikola Tesla: Wizard of the Industrial Revolution

Nikola Tesla grips his hat in his hand. He points his cane toward Niagara Falls and beckons bystanders to turn their gaze to the future. This bronze Tesla — a statue on the Canadian side — stands atop an induction motor, the type of engine that drove the first hydroelectric power plant.

Nikola Tesla exhibited a remarkable aptitude for science and invention from an early age. His work in electricity, magnetism and wireless power transmission concepts, established him as an eccentric but brilliant pioneer in the field of electrical engineering.

Nikola Tesla , a Serbian-American engineer, was born in 1856 in what is now Croatia. His pioneering work in the field of electrical engineering laid the foundation for our modern electrified world. Tesla's groundbreaking designs played a crucial role in advancing alternating current (AC) technology during the early days of the electric age, enabling the transmission of electric power over vast distances, ultimately lighting up American homes.

One of Tesla's most significant contributions was the development of the Tesla coil , a high-voltage transformer that had a profound impact on electrical engineering. His innovative techniques allowed for wireless transmission of power, a concept that is still being explored today, particularly in the field of wireless charging, including applications in cell phones.

Tesla's visionary mind led him to propose audacious ideas, including a grand plan involving a system of towers that could harness energy from the environment and transmit both signals and electricity wirelessly around the world. While these ideas were intriguing, they were ultimately deemed impractical and remained unrealized. Tesla also claimed to have invented a "death ray," adding to his mystique.

Read More: What Did Nikola Tesla Do? The Truth Behind the Legend

Tesla's eccentric genius and prolific inventions earned him widespread recognition during his lifetime. He held numerous patents and made significant contributions to the field of electrical engineering. While he did not invent alternating current (AC), he played a pivotal role in its development and promotion. His ceaseless work and inventions made him a household name, a rare feat for scientists in his era.

In recent years, Tesla's legacy has taken on a life of its own, often overshadowing his actual inventions. He has become a symbol of innovation and eccentricity, inspiring events like San Diego Comic-Con, where attendees dress as Tesla. Perhaps most notably, the world's most famous electric car company bears his name, reflecting his ongoing influence on the electrification of transportation.

While Tesla's mystique sometimes veered into the realm of self-promotion and fantastical claims, his genuine contributions to electrical engineering cannot be denied. He may not have caused earthquakes with his inventions or single handedly discovered AC, but his visionary work and impact on the electrification of the world continue to illuminate our lives.

— Eric Betz

Read More: These 7 Famous Physicists Are Still Alive Today

6. Galileo Galilei: Discoverer of the Cosmos

Galileo Galilei , an Italian mathematician, made a pivotal contribution to modern astronomy around December 1609. At the age of 45, he turned a telescope towards the moon and ushered in a new era in the field.

His observations unveiled remarkable discoveries, such as the presence of four large moons orbiting Jupiter and the realization that the Milky Way's faint glow emanated from countless distant stars. Additionally, he identified sunspots on the surface of the sun and observed the phases of Venus, providing conclusive evidence that Venus orbited the sun within Earth's own orbit.

While Galileo didn't invent the telescope and wasn't the first to use one for celestial observations, his work undeniably marked a turning point in the history of science. His groundbreaking findings supported the heliocentric model proposed by Polish astronomer Nicolaus Copernicus, who had revolutionized astronomy with his sun-centered solar system model . 

Beyond his astronomical observations, Galileo made significant contributions to the understanding of motion. He demonstrated that objects dropped simultaneously would hit the ground at the same time, irrespective of their size, illustrating that gravity isn't dependent on an object's mass. His law of inertia also played a critical role in explaining the Earth's rotation.

Read More: 12 Fascinating Facts About Galileo Galilei You May Not Know

Galileo's discoveries, particularly his support for the Copernican model of the solar system, brought him into conflict with the Roman Catholic Church. In 1616, an inquisition ordered him to cease promoting heliocentrism, as it contradicted the church's geocentric doctrine based on Aristotle's outdated views of the cosmos.

The situation worsened in 1633 when Galileo published a work comparing the Copernican and Ptolemaic systems, further discrediting the latter. Consequently, the church placed him under house arrest, where he remained until his death in 1642.

Galileo's legacy endured despite the challenges he faced from religious authorities. His observations and pioneering work on celestial bodies and motion laid the foundation for modern astronomy and physics.

His law of inertia, in particular, would influence future scientists, including Sir Isaac Newton, who built upon Galileo's work to formulate a comprehensive set of laws of motion that continue to guide spacecraft navigation across the solar system today. Notably, NASA's Galileo mission to Jupiter, launched centuries later, demonstrated the enduring relevance of Galileo's contributions to the field of space exploration. 

Read More: Galileo Galilei's Legacy Went Beyond Science

7. Ada Lovelace: The Enchantress of Numbers

Ada Lovelace defied the conventions of her era and transformed the world of computer science. She is known as the world's first computer programmer. Her legacy endures, inspiring generations of computer scientists and earning her the title of the "Enchantress of Numbers.”

Ada Lovelace, born Ada Byron, made history as the world's first computer programmer, a remarkable achievement considering she lived a century before the advent of modern computers. Her journey into the world of mathematics and computing began in the early 1830s when she was just 17 years old. 

Ada, the only legitimate child of the poet Lord Byron, entered into a pivotal collaboration with British mathematician, inventor, and engineer Charles Babbage. Babbage had conceived plans for an intricate machine called the Difference Engine — essentially a massive mechanical calculator.

Read More: Meet Ada Lovelace, The First Computer Programmer

At a gathering in the 1830s, Babbage exhibited an incomplete prototype of his Difference Engine. Among the attendees was the young Ada Lovelace, who, despite her age, grasped the workings of the machine. This encounter marked the beginning of a profound working relationship and close friendship between Lovelace and Babbage that endured until her untimely death in 1852 at the age of 36. Inspired by Babbage's innovations, Lovelace recognized the immense potential of his latest concept, the Analytical Engine.

The Analytical Engine was more than a mere calculator. Its intricate mechanisms, coupled with the ability for users to input commands through punch cards, endowed it with the capacity to perform a wide range of mathematical tasks. Lovelace, in fact, went a step further by crafting instructions for solving a complex mathematical problem, effectively creating what many historians later deemed the world's first computer program. In her groundbreaking work, Lovelace laid the foundation for computer programming, defining her legacy as one of the greatest scientists.

Ada Lovelace's contributions to the realm of "poetical science," as she termed it, are celebrated as pioneering achievements in computer programming and mathematics. Despite her tumultuous personal life marked by gambling and scandal, her intellectual brilliance and foresight into the potential of computing machines set her apart. Charles Babbage himself described Lovelace as an "enchantress" who wielded a remarkable influence over the abstract realm of science, a force equivalent to the most brilliant male intellects of her time. 

Read More: Meet 10 Women in Science Who Changed the World

8. Pythagoras: Math's Mystery Man

Pythagoras left an enduring legacy in the world of mathematics that continues to influence the field to this day. While his famous Pythagorean theorem , which relates the sides of a right triangle, is well-known, his broader contributions to mathematics and his belief in the fundamental role of numbers in the universe shaped the foundations of geometry and mathematical thought for centuries to come.

Pythagoras , a Greek philosopher and mathematician, lived in the sixth century B.C. He is credited with the Pythagorean theorem, although the origins of this mathematical concept are debated.

Pythagoras is most famous for the Pythagorean theorem, which relates the lengths of the sides of a right triangle. While he may not have been the first to discover it, he played a significant role in its development. His emphasis on the importance of mathematical concepts laid the foundation for modern geometry.

Pythagoras did not receive formal awards, but his legacy in mathematics and geometry is considered one of the cornerstones of scientific knowledge.

Pythagoras' contributions to mathematics, particularly the Pythagorean theorem, have had a lasting impact on science and education. His emphasis on the importance of mathematical relationships and the certainty of mathematical proofs continues to influence the way we understand the world.

Read More: The Origin Story of Pythagoras and His Cult Followers

9. Carl Linnaeus: Say His Name(s)

Carl Linnaeus embarked on a mission to improve the chaos of naming living organisms. His innovative system of binomial nomenclature not only simplified the process of scientific communication but also laid the foundation for modern taxonomy, leaving an enduring legacy in the field of biology.

It started in Sweden: a functional, user-friendly innovation that took over the world, bringing order to chaos. No, not an Ikea closet organizer. We’re talking about the binomial nomenclature system , which has given us clarity and a common language, devised by Carl Linnaeus.

Linnaeus, born in southern Sweden in 1707, was an “intensely practical” man, according to Sandra Knapp, a botanist and taxonomist at the Natural History Museum in London. He lived at a time when formal scientific training was scant and there was no system for referring to living things. Plants and animals had common names, which varied from one location and language to the next, and scientific “phrase names,” cumbersome Latin descriptions that could run several paragraphs.ccjhhg

While Linnaeus is often hailed as the father of taxonomy, his primary focus was on naming rather than organizing living organisms into evolutionary hierarchies. The task of ordering species would come later, notably with the work of Charles Darwin in the following century. Despite advancements in our understanding of evolution and the impact of genetic analysis on biological classification, Linnaeus' naming system endures as a simple and adaptable means of identification.

The 18th century was also a time when European explorers were fanning out across the globe, finding ever more plants and animals new to science.

“There got to be more and more things that needed to be described, and the names were becoming more and more complex,” says Knapp.

Linnaeus, a botanist with a talent for noticing details, first used what he called “trivial names” in the margins of his 1753 book Species Plantarum . He intended the simple Latin two-word construction for each plant as a kind of shorthand, an easy way to remember what it was.

“It reflected the adjective-noun structure in languages all over the world,” Knapp says of the trivial names, which today we know as genus and species. The names moved quickly from the margins of a single book to the center of botany, and then all of biology. Linnaeus started a revolution — positioning him as one of the greatest scientists — but it was an unintentional one.

Today we regard Linnaeus as the father of taxonomy, which is used to sort the entire living world into evolutionary hierarchies, or family trees. But the systematic Swede was mostly interested in naming things rather than ordering them, an emphasis that arrived the next century with Charles Darwin.

As evolution became better understood and, more recently, genetic analysis changed how we classify and organize living things, many of Linnaeus’ other ideas have been supplanted. But his naming system, so simple and adaptable, remains.

“It doesn’t matter to the tree in the forest if it has a name,” Knapp says. “But by giving it a name, we can discuss it. Linnaeus gave us a system so we could talk about the natural world.”

— Gemma Tarlach

Read More: Is Plant Communication a Real Thing?

10. Rosalind Franklin: The Hero Denied Her Due

Rosalind Franklin, a brilliant and tenacious scientist, transformed the world of molecular biology. Her pioneering work in X-ray crystallography and groundbreaking research on the structure of DNA propelled her to the forefront of scientific discovery. Yet, her remarkable contributions were often overshadowed, and her legacy is not only one of scientific excellence but also a testament to the persistence and resilience of a scientist who deserved greater recognition in her time.

Rosalind Franklin , one of the greatest scientists of her time, was a British-born firebrand and perfectionist. While she had a reputation for being somewhat reserved and difficult to connect with, those who knew her well found her to be outgoing and loyal. Franklin's brilliance shone through in her work, particularly in the field of X-ray crystallography , an imaging technique that revealed molecular structures based on scattered X-ray beams. Her early research on the microstructures of carbon and graphite remains influential in the scientific community.

However, it was Rosalind Franklin's groundbreaking work with DNA that would become her most significant contribution. During her time at King's College London in the early 1950s, she came close to proving the double-helix theory of DNA. Her achievement was epitomized in "photograph #51," which was considered the finest image of a DNA molecule at that time. Unfortunately, her work was viewed by others, notably James Watson and Francis Crick.

Watson saw photograph #51 through her colleague Maurice Wilkins, and Crick received unpublished data from a report Franklin had submitted to the council. In 1953, Watson and Crick published their iconic paper in "Nature," loosely citing Franklin's work, which also appeared in the same issue.

Rosalind Franklin's pivotal role in elucidating the structure of DNA was overlooked when the Nobel Prize was awarded in 1962 to James Watson, Francis Crick, and Maurice Wilkins. This omission is widely regarded as one of the major snubs of the 20th century in the field of science.

Despite her groundbreaking work and significant contributions to science, Franklin's life was tragically cut short. In 1956, at the height of her career, she was diagnosed with ovarian cancer, possibly linked to her extensive X-ray work. Remarkably, she continued to work in the lab until her passing in 1958 at the young age of 37.

Rosalind Franklin's legacy endures not only for her achievements but also for the recognition she deserved but did not receive during her lifetime. She was known for her extreme clarity and perfectionism in all her scientific endeavors, changing the field of molecular biology. While many remember her for her contributions, she is also remembered for how her work was overshadowed and underappreciated, a testament to her enduring influence on the world of science.

“As a scientist, Miss Franklin was distinguished by extreme clarity and perfection in everything she undertook,” Bernal wrote in her obituary, published in Nature . Though it’s her achievements that close colleagues admired, most remember Franklin for how she was forgotten. 

— Carl Engelking

Read More: The Unsung Heroes of Science

More Greatest Scientists: Our Personal Favorites

Isaac Asimov   (1920–1992) Asimov was my gateway into science fiction, then science, then everything else. He penned some of the genre’s most iconic works — fleshing out the laws of robotics, the messiness of a galactic empire, the pitfalls of predicting the future — in simple, effortless prose. A trained biochemist, the Russian-born New Yorker wrote prolifically, producing over 400 books, not all science-related: Of the 10 Dewey Decimal categories, he has books in nine. — B.A.

Richard Feynman   (1918–1988) Feynman played a part in most of the highlights of 20th-century physics. In 1941, he joined the Manhattan Project. After the war, his Feynman diagrams — for which he shared the ’65 Nobel Prize in Physics — became the standard way to show how subatomic particles interact. As part of the 1986 space shuttle Challenger disaster investigation, he explained the problems to the public in easily understandable terms, his trademark. Feynman was also famously irreverent, and his books pack lessons I live by. — E.B.

Robert FitzRoy   (1805–1865) FitzRoy suffered for science, and for that I respect him. As captain of the HMS Beagle , he sailed Charles Darwin around the world, only to later oppose his shipmate’s theory of evolution while waving a Bible overhead. FitzRoy founded the U.K.’s Met Office in 1854, and he was a pioneer of prediction; he coined the term weather forecast. But after losing his fortunes, suffering from depression and poor health, and facing fierce criticism of his forecasting system, he slit his throat in 1865. — C.E.

Jean-Baptiste Lamarck   (1744–1829) Lamarck may be remembered as a failure today, but to me, he represents an important step forward for evolutionary thinking . Before he suggested that species could change over time in the early 19th century, no one took the concept of evolution seriously. Though eventually proven wrong, Lamarck’s work brought the concept of evolution into the light and would help shape the theories of a young Charles Darwin. Science isn’t all about dazzling successes; it’s also a story of failures surmounted and incremental advances. — N.S.

Lucretius   (99 B.C.–55 B.C.) My path to the first-century B.C. Roman thinker Titus Lucretius Carus started with Ralph Waldo Emerson and Michele de Montaigne, who cited him in their essays. Lucretius’ only known work, On the Nature of Things, is remarkable for its foreshadowing of Darwinism, humans as higher primates, the study of atoms and the scientific method — all contemplated in a geocentric world ruled by eccentric gods. — M.B.

Katharine McCormick   (1875–1967) McCormick planned to attend medical school after earning her biology degree from MIT in 1904. Instead, she married rich. After her husband’s death in 1947, she used her inheritance to provide crucial funding for research on the hormonal birth control pill . She also fought to make her alma mater more accessible to women, leading to an all-female dormitory, allowing more women to enroll. As a feminist interested in science, I’d love to be friends with this badass advocate for women’s rights. — L.S.

John Muir   (1838–1914) In 1863, Muir abandoned his eclectic combination of courses at the University of Wisconsin to wander instead the “University of the Wilderness” — a school he never stopped attending. A champion of the national parks (enough right there to make him a hero to me!), Muir fought vigorously for conservation and warned, “When we try to pick out anything by itself, we find it hitched to everything else in the Universe.” It’s a reminder we need today, more than ever. — Elisa Neckar

Rolf O. Peterson   (1944–) Peterson helms the world’s longest-running study of the predator-prey relationship in the wild, between wolves and moose on Isle Royale in the middle of Lake Superior. He’s devoted more than four decades to the 58-year wildlife ecology project, a dedication and passion indicative, to me, of what science is all about. As the wolf population has nearly disappeared and moose numbers have climbed, patience and emotional investment like his are crucial in the quest to learn how nature works. — Becky Lang

Marie Tharp   (1920–2006) I love maps. So did geologist and cartographer Tharp . In the mid-20th century, before women were permitted aboard research vessels, Tharp explored the oceans from her desk at Columbia University. With the seafloor — then thought to be nearly flat — her canvas, and raw data her inks, she revealed a landscape of mountain ranges and deep trenches. Her keen eye also spotted the first hints of plate tectonics at work beneath the waves. Initially dismissed, Tharp’s observations would become crucial to proving continental drift. — G.T.

Read more: The Dynasties That Changed Science

Making Science Popular With Other Greatest Scientists

Science needs to get out of the lab and into the public eye. Over the past hundred years or so, these other greatest scientists have made it their mission. They left their contributions in multiple sciences while making them broadly available to the general public.

Sean M. Carroll  (1966– ) : The physicist (and one-time  Discover  blogger) has developed a following among space enthusiasts through his lectures, television appearances and books, including   The Particle at the End of the Universe, on the Higgs boson .

Rachel Carson   (1907–1964) : With her 1962 book  Silent Spring , the biologist energized a nascent environmental movement. In 2006,  Discover  named  Silent Spring  among the top 25 science books of all time.

Richard Dawkins   (1941– ) : The biologist, a charismatic speaker, first gained public notoriety in 1976 with his book  The Selfish Gene , one of his many works on evolution .

Jane Goodall   (1934– ) : Studying chimpanzees in Tanzania, Goodall’s patience and observational skills led to fresh insights into their behavior — and led her to star in a number of television documentaries.

Stephen Jay Gould   (1941–2002) : In 1997, the paleontologist Gould was a guest on  The Simpson s, a testament to his broad appeal. Among scientists, Gould was controversial for his idea of evolution unfolding in fits and starts rather than in a continuum.

Stephen Hawking   (1942–2018) : His books’ titles suggest the breadth and boldness of his ideas:  The Universe in a Nutshell, The Theory of Everything . “My goal is simple,” he has said. “It is a complete understanding of the universe, why it is as it is and why it exists at all.”

Aldo Leopold   (1887–1948) : If Henry Thoreau and John Muir primed the pump for American environmentalism, Leopold filled the first buckets . His posthumously published  A Sand County Almanac  is a cornerstone of modern environmentalism.

Bill Nye   (1955– ) : What should an engineer and part-time stand-up comedian do with his life? For Nye, the answer was to become a science communicator . In the ’90s, he hosted a popular children’s science show and more recently has been an eloquent defender of evolution in public debates with creationists.

Oliver Sacks   (1933–2015) : The neurologist began as a medical researcher , but found his calling in clinical practice and as a chronicler of strange medical maladies, most famously in his book  The Man Who Mistook His Wife for a Hat.

Carl Sagan   (1934–1996) : It’s hard to hear someone say “billions and billions” and not hear Sagan’s distinctive voice , and remember his 1980  Cosmos: A Personal Voyage  miniseries. Sagan brought the wonder of the universe to the public in a way that had never happened before.

Neil deGrasse Tyson   (1958– ) : The astrophysicist and gifted communicator is Carl Sagan’s successor as champion of the universe . In a nod to Sagan’s  Cosmos , Tyson hosted the miniseries  Cosmos: A Spacetime Odyssey  in 2014.

E.O. Wilson   (1929–2021) : The prolific, Pulitzer Prize-winning biologist first attracted broad public attention with 1975’s  Sociobiology: The New Synthesis . His subsequent works have filled many a bookshelf with provocative discussions of biodiversity, philosophy and the animals he has studied most closely: ants. — M.B.

Read More: Who Was Anna Mani, and How Was She a Pioneer for Women in STEM?

Science Stars: The Next Generation

As science progresses, so does the roll call of new voices and greatest scientists serving as bridges between lab and layman. Here are some of our favorite emerging science stars:

British physicist Brian Cox became a household name in the U.K. in less than a decade, thanks to his accessible explanations of the universe in TV and radio shows, books and public appearances.

Neuroscientist Carl Hart debunks anti-science myths supporting misguided drug policies via various media, including his memoir High Price .

From the Amazon forest to the dissecting table, YouTube star and naturalist Emily Graslie brings viewers into the guts of the natural world, often literally.

When not talking dinosaurs or head transplants on Australian radio, molecular biologist Upulie Divisekera coordinates @RealScientists , a rotating Twitter account for science outreach.

Mixing pop culture and chemistry, analytical chemist Raychelle Burks demystifies the molecules behind poisons, dyes and even Game of Thrones via video, podcast and blog.

Climate scientist and evangelical Christian Katharine Hayhoe preaches beyond the choir about the planetary changes humans are causing in PBS’ Global Weirding video series. — Ashley Braun

Read More: 6 Famous Archaeologists You Need to Know About

This article was originally published on April 11, 2017 and has since been updated with new information by the Discover staff.

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ENCYCLOPEDIC ENTRY

Charles darwin.

Charles Darwin and his observations while aboard the HMS Beagle , changed the understanding of evolution on Earth.

Biology, Earth Science, Geography, Physical Geography

Historic photograph of Charles Darwin in profile.

Photograph by Chronical/Alamy Stock Photo

Charles Darwin was born in 1809 in Shrewsbury, England. His father, a doctor, had high hopes that his son would earn a medical degree at Edinburgh University in Scotland, where he enrolled at the age of sixteen. It turned out that Darwin was more interested in natural history than medicine—it was said that the sight of blood made him sick to his stomach. While he continued his studies in theology at Cambridge, it was his focus on natural history that became his passion.

In 1831, Darwin embarked on a voyage aboard a ship of the British Royal Navy, the HMS Beagle, employed as a naturalist . The main purpose of the trip was to survey the coastline of South America and chart its harbors to make better maps of the region. The work that Darwin did was just an added bonus.

Darwin spent much of the trip on land collecting samples of plants, animals, rocks, and fossils . He explored regions in Brazil, Argentina, Chile, and remote islands such as the Galápagos. He packed all of his specimens into crates and sent them back to England aboard other vessels.

Upon his return to England in 1836, Darwin’s work continued. Studies of his samples and notes from the trip led to groundbreaking scientific discoveries. Fossils he collected were shared with paleontologists and geologists, leading to advances in the understanding of the processes that shape the Earth’s surface. Darwin’s analysis of the plants and animals he gathered led him to question how species form and change over time. This work convinced him of the insight that he is most famous for— natural selection . The theory of natural selection says that individuals of a species are more likely to survive in their environment and pass on their genes to the next generation when they inherit traits from their parents that are best suited for that specific environment. In this way, such traits become more widespread in the species and can lead eventually to the development of a new species .

In 1859, Darwin published his thoughts about evolution and natural selection in On the Origin of Species . It was as popular as it was controversial. The book convinced many people that species change over time—a lot of time—suggesting that the planet was much older than what was commonly believed at the time: six thousand years.

Charles Darwin died in 1882 at the age of seventy-three. He is buried in Westminster Abbey in London, England.

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Stanford University School of Medicine blog

How a Nobel laureate’s life story and encouraging words inspire my scientific journey

Editor's update: Emily Ashkin is featured in a podcast from The Lasker Foundation.

My legs were starting to ache from standing by my research poster for nearly ten hours. At 15, I was anxiously awaiting the possibility to speak to my biggest role model, J. Michael Bishop , MD.

I'd heard rumors from other students who had previously participated in the International Science and Engineering Fair (ISEF) that the Nobel Laureate walks around from poster to poster to speak with students during the Public Showcase Day. However, they said he usually only goes up to posters of students who scored highest the previous day of judging.

I did not believe that I had done well during the judging sessions, and was disheartened at the thought that I might not have the opportunity to meet my scientific hero.

I first learned Dr. Bishop's story at the age of 11. This was around the same time a family member was diagnosed with cancer, and I had made it my life goal to study the disease.

However, I had no means to pursue a career in science. As a Latina, with neither of my parents as scientists, I had no one to pave a path for me to follow.

Contributions that extend beyond science

With encouragement from my mom's doctors, I started learning the basics and foundations of cancer biology. And that was where I came across Dr. Bishop's paradigm-shifting scientific discoveries. Very quickly, I learned that Dr. Bishop's contributions to science extended far beyond his discoveries in the lab. Every year, Dr. Bishop serves as a mentor and speaks as part of a panel at the ISEF poster session.

He speaks about his childhood and how he had hardly been exposed to science. Throughout his college education, he never imagined himself as a scientist. He had even been denied entry into countless labs due to a lack of prior experience. He had an ambition to become a scientist, but lacked the guidance to visualize his future career. Over time, he developed relationships with mentors who believed in him. More importantly, he learned how to believe in himself.

I found inspiration in Dr. Bishop's goal of becoming a scientist and his willingness to be open and vulnerable -- he often gave talks about experiencing self-doubt. Dr. Bishop is a role model for anyone who -- like me -- comes from an unconventional background, inspiring us to persevere and work through self-doubt to pursue a career in science.

Talking with my hero

After learning Dr. Bishop's story, I realized that there is no exact mold that dictates the development of a scientist, and I became more determined to continue studying cancer biology. I also became determined to keep sharing his message with the generations of scientists who will follow me.

All of this weighed heavily on my mind as I looked up and realized that Dr. Bishop was inches away from the aisle of posters nearest to mine. I ran up to my hero and asked him to come to my poster even if I wasn't on his list. He was kind enough to spend almost an hour with me, discussing my research and ultimately my goal to pursue a PhD.

I conveyed to him my self-doubt, given my background, and how learning about his story of discovering that science was right for him gave me direction.

Dr. Bishop looked me in the eyes and made it clear to me that my background was a strength, something that I hold onto to this day.

Continuing to draw inspiration

I continue to draw inspiration from him throughout my scientific journey, especially when I face obstacles, such as difficult classes or failed experiments.

Seven years after meeting Dr. Bishop, I have the privilege of pursuing a PhD in cancer biology, and my path continues to mirror his. I find guidance in how he handled the uncertainty he faced, but also the value he places on mentoring young minds.

I am devoting my graduate and scientific career to mentoring students from underrepresented backgrounds through teaching, guiding them through their own research projects, and openly sharing my own story, just as Dr. Bishop has.

I aspire to keep paving new paths and to become a role model to other young minds. I want to inspire them to turn to science and critical thinking to solve problems affecting themselves, their families and their communities.

This piece, originally in a longer form , was among 11 winners of the 2020 Lasker Essay Contest , which recognizes writing by young scientists from around the world. It first appeared on Scope in the summer of 2020.

Emily Ashkin is a PhD candidate in the lab of Monte Winslow , PhD, and part of Stanford Medicine's Cancer Biology Program . Emily has a strong passion for inclusivity in science and science communication. Feel free to communicate at  [email protected] .

Top photo courtesy of Emily Ashkin. Photo of Bishop by General Motors Cancer Research Foundation .

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Home Essay Samples Science Albert Einstein

Albert Einstein: The Great Scientist Who Changed The World

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Albert Einstein

One of the most influential scientists of the 20 th century, Albert Einstein was a physicist who developed the theory of relativity.

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Early life, family, and education, einstein’s iq, patent clerk, inventions and discoveries, nobel prize in physics, wives and children, travel diaries, becoming a u.s. citizen, einstein and the atomic bomb, time travel and quantum theory, personal life, death and final words, einstein’s brain, einstein in books and movies: "oppenheimer" and more, who was albert einstein.

Albert Einstein was a German mathematician and physicist who developed the special and general theories of relativity. In 1921, he won the Nobel Prize in Physics for his explanation of the photoelectric effect. In the following decade, he immigrated to the United States after being targeted by the German Nazi Party. His work also had a major impact on the development of atomic energy. In his later years, Einstein focused on unified field theory. He died in April 1955 at age 76. With his passion for inquiry, Einstein is generally considered the most influential physicist of the 20 th century.

FULL NAME: Albert Einstein BORN: March 14, 1879 DIED: April 18, 1955 BIRTHPLACE: Ulm, Württemberg, Germany SPOUSES: Mileva Einstein-Maric (1903-1919) and Elsa Einstein (1919-1936) CHILDREN: Lieserl, Hans, and Eduard ASTROLOGICAL SIGN: Pisces

Albert Einstein was born on March 14, 1879, in Ulm, Württemberg, Germany. He grew up in a secular Jewish family. His father, Hermann Einstein, was a salesman and engineer who, with his brother, founded Elektrotechnische Fabrik J. Einstein & Cie, a Munich-based company that mass-produced electrical equipment. Einstein’s mother, the former Pauline Koch, ran the family household. Einstein had one sister, Maja, born two years after him.

Einstein attended elementary school at the Luitpold Gymnasium in Munich. However, he felt alienated there and struggled with the institution’s rigid pedagogical style. He also had what were considered speech challenges. However, he developed a passion for classical music and playing the violin, which would stay with him into his later years. Most significantly, Einstein’s youth was marked by deep inquisitiveness and inquiry.

Toward the end of the 1880s, Max Talmud, a Polish medical student who sometimes dined with the Einstein family, became an informal tutor to young Einstein. Talmud had introduced his pupil to a children’s science text that inspired Einstein to dream about the nature of light. Thus, during his teens, Einstein penned what would be seen as his first major paper, “The Investigation of the State of Aether in Magnetic Fields.”

Hermann relocated the family to Milan, Italy, in the mid-1890s after his business lost out on a major contract. Einstein was left at a relative’s boarding house in Munich to complete his schooling at the Luitpold.

Faced with military duty when he turned of age, Einstein allegedly withdrew from classes, using a doctor’s note to excuse himself and claim nervous exhaustion. With their son rejoining them in Italy, his parents understood Einstein’s perspective but were concerned about his future prospects as a school dropout and draft dodger.

Einstein was eventually able to gain admission into the Swiss Federal Institute of Technology in Zurich, specifically due to his superb mathematics and physics scores on the entrance exam. He was still required to complete his pre-university education first and thus attended a high school in Aarau, Switzerland, helmed by Jost Winteler. Einstein lived with the schoolmaster’s family and fell in love with Winteler’s daughter Marie. Einstein later renounced his German citizenship and became a Swiss citizen at the dawn of the new century.

Einstein’s intelligence quotient was estimated to be around 160, but there are no indications he was ever actually tested.

Psychologist David Wechsler didn’t release the first edition of the WAIS cognitive test, which evolved into the WAIS-IV test commonly used today, until 1955—shortly before Einstein’s death. The maximum score of the current version is 160, with an IQ of 135 or higher ranking in the 99 th percentile.

Magazine columnist Marilyn vos Savant has the highest-ever recorded IQ at 228 and was featured in the Guinness Book of World Records in the late 1980s. However, Guinness discontinued the category because of debates about testing accuracy. According to Parade , individuals believed to have higher IQs than Einstein include Leonardo Da Vinci , Marie Curie , Nikola Tesla , and Nicolaus Copernicus .

After graduating from university, Einstein faced major challenges in terms of finding academic positions, having alienated some professors over not attending class more regularly in lieu of studying independently.

Einstein eventually found steady work in 1902 after receiving a referral for a clerk position in a Swiss patent office. While working at the patent office, Einstein had the time to further explore ideas that had taken hold during his university studies and thus cemented his theorems on what would be known as the principle of relativity.

In 1905—seen by many as a “miracle year” for the theorist—Einstein had four papers published in the Annalen der Physik , one of the best-known physics journals of the era. Two focused on the photoelectric effect and Brownian motion. The two others, which outlined E=MC 2 and the special theory of relativity, were defining for Einstein’s career and the course of the study of physics.

As a physicist, Einstein had many discoveries, but he is perhaps best known for his theory of relativity and the equation E=MC 2 , which foreshadowed the development of atomic power and the atomic bomb.

Theory of Relativity

Einstein first proposed a special theory of relativity in 1905 in his paper “On the Electrodynamics of Moving Bodies,” which took physics in an electrifying new direction. The theory explains that space and time are actually connected, and Einstein called this joint structure space-time.

By November 1915, Einstein completed the general theory of relativity, which accounted for gravity’s relationship to space-time. Einstein considered this theory the culmination of his life research. He was convinced of the merits of general relativity because it allowed for a more accurate prediction of planetary orbits around the sun, which fell short in Isaac Newton ’s theory. It also offered a more expansive, nuanced explanation of how gravitational forces worked.

Einstein’s assertions were affirmed via observations and measurements by British astronomers Sir Frank Dyson and Sir Arthur Eddington during the 1919 solar eclipse, and thus a global science icon was born. Today, the theories of relativity underpin the accuracy of GPS technology, among other phenomena.

Even so, Einstein did make one mistake when developing his general theory, which naturally predicted the universe is either expanding or contracting. Einstein didn’t believe this prediction initially, instead holding onto the belief that the universe was a fixed, static entity. To account for, this he factored in a “cosmological constant” to his equation. His later theories directly contracted this idea and asserted that the universe could be in a state of flux. Then, astronomer Edwin Hubble deduced that we indeed inhabit an expanding universe. Hubble and Einstein met at the Mount Wilson Observatory near Los Angeles in 1931.

Decades after Einstein’s death, in 2018, a team of scientists confirmed one aspect of Einstein’s general theory of relativity: that the light from a star passing close to a black hole would be stretched to longer wavelengths by the overwhelming gravitational field. Tracking star S2, their measurements indicated that the star’s orbital velocity increased to over 25 million kph as it neared the supermassive black hole at the center of the galaxy, its appearance shifting from blue to red as its wavelengths stretched to escape the pull of gravity.

Einstein’s E=MC²

Einstein’s 1905 paper on the matter-energy relationship proposed the equation E=MC²: the energy of a body (E) is equal to the mass (M) of that body times the speed of light squared (C²). This equation suggested that tiny particles of matter could be converted into huge amounts of energy, a discovery that heralded atomic power.

Famed quantum theorist Max Planck backed up the assertions of Einstein, who thus became a star of the lecture circuit and academia, taking on various positions before becoming director of the Kaiser Wilhelm Institute for Physics (today is known as the Max Planck Institute for Physics) from 1917 to 1933.

In 1921, Einstein won the Nobel Prize in Physics for his explanation of the photoelectric effect, since his ideas on relativity were still considered questionable. He wasn’t actually given the award until the following year due to a bureaucratic ruling, and during his acceptance speech, he still opted to speak about relativity.

Einstein married Mileva Maric on January 6, 1903. While attending school in Zurich, Einstein met Maric, a Serbian physics student. Einstein continued to grow closer to Maric, but his parents were strongly against the relationship due to her ethnic background.

Nonetheless, Einstein continued to see her, with the two developing a correspondence via letters in which he expressed many of his scientific ideas. Einstein’s father passed away in 1902, and the couple married shortly thereafter.

Einstein and Mavic had three children. Their daughter, Lieserl, was born in 1902 before their wedding and might have been later raised by Maric’s relatives or given up for adoption. Her ultimate fate and whereabouts remain a mystery. The couple also had two sons: Hans Albert Einstein, who became a well-known hydraulic engineer, and Eduard “Tete” Einstein, who was diagnosed with schizophrenia as a young man.

The Einsteins’ marriage would not be a happy one, with the two divorcing in 1919 and Maric having an emotional breakdown in connection to the split. Einstein, as part of a settlement, agreed to give Maric any funds he might receive from possibly winning the Nobel Prize in the future.

During his marriage to Maric, Einstein had also begun an affair some time earlier with a cousin, Elsa Löwenthal . The couple wed in 1919, the same year of Einstein’s divorce. He would continue to see other women throughout his second marriage, which ended with Löwenthal’s death in 1936.

In his 40s, Einstein traveled extensively and journaled about his experiences. Some of his unfiltered private thoughts are shared two volumes of The Travel Diaries of Albert Einstein .

The first volume , published in 2018, focuses on his five-and-a-half month trip to the Far East, Palestine, and Spain. The scientist started a sea journey to Japan in Marseille, France, in autumn of 1922, accompanied by his second wife, Elsa. They journeyed through the Suez Canal, then to Sri Lanka, Singapore, Hong Kong, Shanghai, and Japan. The couple returned to Germany via Palestine and Spain in March 1923.

The second volume , released in 2023, covers three months that he spent lecturing and traveling in Argentina, Uruguay, and Brazil in 1925.

The Travel Diaries contain unflattering analyses of the people he came across, including the Chinese, Sri Lankans, and Argentinians, a surprise coming from a man known for vehemently denouncing racism in his later years. In an entry for November 1922, Einstein refers to residents of Hong Kong as “industrious, filthy, lethargic people.”

In 1933, Einstein took on a position at the Institute for Advanced Study in Princeton, New Jersey, where he would spend the rest of his life.

At the time the Nazis, led by Adolf Hitler , were gaining prominence with violent propaganda and vitriol in an impoverished post-World War I Germany. The Nazi Party influenced other scientists to label Einstein’s work “Jewish physics.” Jewish citizens were barred from university work and other official jobs, and Einstein himself was targeted to be killed. Meanwhile, other European scientists also left regions threatened by Germany and immigrated to the United States, with concern over Nazi strategies to create an atomic weapon.

Not long after moving and beginning his career at IAS, Einstein expressed an appreciation for American meritocracy and the opportunities people had for free thought, a stark contrast to his own experiences coming of age. In 1935, Einstein was granted permanent residency in his adopted country and became an American citizen five years later.

In America, Einstein mostly devoted himself to working on a unified field theory, an all-embracing paradigm meant to unify the varied laws of physics. However, during World War II, he worked on Navy-based weapons systems and made big monetary donations to the military by auctioning off manuscripts worth millions.

In 1939, Einstein and fellow physicist Leo Szilard wrote to President Franklin D. Roosevelt to alert him of the possibility of a Nazi bomb and to galvanize the United States to create its own nuclear weapons.

The United States would eventually initiate the Manhattan Project , though Einstein wouldn’t take a direct part in its implementation due to his pacifist and socialist affiliations. Einstein was also the recipient of much scrutiny and major distrust from FBI director J. Edgar Hoover . In July 1940, the U.S. Army Intelligence office denied Einstein a security clearance to participate in the project, meaning J. Robert Oppenheimer and the scientists working in Los Alamos were forbidden from consulting with him.

Einstein had no knowledge of the U.S. plan to use atomic bombs in Japan in 1945. When he heard of the first bombing at Hiroshima, he reportedly said, “Ach! The world is not ready for it.”

Einstein became a major player in efforts to curtail usage of the A-bomb. The following year, he and Szilard founded the Emergency Committee of Atomic Scientists, and in 1947, via an essay for The Atlantic Monthly , Einstein espoused working with the United Nations to maintain nuclear weapons as a deterrent to conflict.

After World War II, Einstein continued to work on his unified field theory and key aspects of his general theory of relativity, including time travel, wormholes, black holes, and the origins of the universe.

However, he felt isolated in his endeavors since the majority of his colleagues had begun focusing their attention on quantum theory. In the last decade of his life, Einstein, who had always seen himself as a loner, withdrew even further from any sort of spotlight, preferring to stay close to Princeton and immerse himself in processing ideas with colleagues.

In the late 1940s, Einstein became a member of the National Association for the Advancement of Colored People (NAACP), seeing the parallels between the treatment of Jews in Germany and Black people in the United States. He corresponded with scholar and activist W.E.B. Du Bois as well as performer Paul Robeson and campaigned for civil rights, calling racism a “disease” in a 1946 Lincoln University speech.

Einstein was very particular about his sleep schedule, claiming he needed 10 hours of sleep per day to function well. His theory of relativity allegedly came to him in a dream about cows being electrocuted. He was also known to take regular naps. He is said to have held objects like a spoon or pencil in his hand while falling asleep. That way, he could wake up before hitting the second stage of sleep—a hypnagogic process believed to boost creativity and capture sleep-inspired ideas.

Although sleep was important to Einstein, socks were not. He was famous for refusing to wear them. According to a letter he wrote to future wife Elsa, he stopped wearing them because he was annoyed by his big toe pushing through the material and creating a hole.

One of the most recognizable photos of the 20 th century shows Einstein sticking out his tongue while leaving his 72 nd birthday party on March 14, 1951.

According to Discovery.com , Einstein was leaving his party at Princeton when a swarm of reporters and photographers approached and asked him to smile. Tired from doing so all night, he refused and rebelliously stuck his tongue out at the crowd for a moment before turning away. UPI photographer Arthur Sasse captured the shot.

Einstein was amused by the picture and ordered several prints to give to his friends. He also signed a copy of the photo that sold for $125,000 at a 2017 auction.

Einstein died on April 18, 1955, at age 76 at the University Medical Center at Princeton. The previous day, while working on a speech to honor Israel’s seventh anniversary, Einstein suffered an abdominal aortic aneurysm.

He was taken to the hospital for treatment but refused surgery, believing that he had lived his life and was content to accept his fate. “I want to go when I want,” he stated at the time. “It is tasteless to prolong life artificially. I have done my share, it is time to go. I will do it elegantly.”

According to the BBC, Einstein muttered a few words in German at the moment of his death. However, the nurse on duty didn’t speak German so their translation was lost forever.

In a 2014 interview , Life magazine photographer Ralph Morse said the hospital was swarmed by journalists, photographers, and onlookers once word of Einstein’s death spread. Morse decided to travel to Einstein’s office at the Institute for Advanced Studies, offering the superintendent alcohol to gain access. He was able to photograph the office just as Einstein left it.

After an autopsy, Einstein’s corpse was moved to a Princeton funeral home later that afternoon and then taken to Trenton, New Jersey, for a cremation ceremony. Morse said he was the only photographer present for the cremation, but Life managing editor Ed Thompson decided not to publish an exclusive story at the request of Einstein’s son Hans.

During Einstein’s autopsy, pathologist Thomas Stoltz Harvey had removed his brain, reportedly without his family’s consent, for preservation and future study by doctors of neuroscience.

However, during his life, Einstein participated in brain studies, and at least one biography claimed he hoped researchers would study his brain after he died. Einstein’s brain is now located at the Princeton University Medical Center. In keeping with his wishes, the rest of his body was cremated and the ashes scattered in a secret location.

In 1999, Canadian scientists who were studying Einstein’s brain found that his inferior parietal lobe, the area that processes spatial relationships, 3D-visualization, and mathematical thought, was 15 percent wider than in people who possess normal intelligence. According to The New York Times , the researchers believe it might help explain why Einstein was so intelligent.

In 2011, the Mütter Museum in Philadelphia received thin slices of Einstein’s brain from Dr. Lucy Rorke-Adams, a neuropathologist at the Children’s Hospital of Philadelphia, and put them on display. Rorke-Adams said she received the brain slides from Harvey.

Since Einstein’s death, a veritable mountain of books have been written on the iconic thinker’s life, including Einstein: His Life and Universe by Walter Isaacson and Einstein: A Biography by Jürgen Neffe, both from 2007. Einstein’s own words are presented in the collection The World As I See It .

Einstein has also been portrayed on screen. Michael Emil played a character called “The Professor,” clearly based on Einstein, in the 1985 film Insignificance —in which alternate versions of Einstein, Marilyn Monroe , Joe DiMaggio , and Joseph McCarthy cross paths in a New York City hotel.

Walter Matthau portrayed Einstein in the fictional 1994 comedy I.Q. , in which he plays matchmaker for his niece played by Meg Ryan . Einstein was also a character in the obscure comedy films I Killed Einstein, Gentlemen (1970) and Young Einstein (1988).

A much more historically accurate depiction of Einstein came in 2017, when he was the subject of the first season of Genius , a 10-part scripted miniseries by National Geographic. Johnny Flynn played a younger version of the scientist, while Geoffrey Rush portrayed Einstein in his later years after he had fled Germany. Ron Howard was the director.

Tom Conti plays Einstein in the 2023 biopic Oppenheimer , directed by Christopher Nolan and starring Cillian Murphy as scientist J. Robert Oppenheimer during his involvement with the Manhattan Project.

• The world is a dangerous place to live; not because of the people who are evil, but because of the people who don’t do anything about it.
• A question that sometimes drives me hazy: Am I or are the others crazy?
• A person who never made a mistake never tried anything new.
• Logic will get you from A to B. Imagination will take you everywhere.
• I want to go when I want. It is tasteless to prolong life artificially. I have done my share, it is time to go. I will do it elegantly.
• If you can’t explain it simply, you don’t understand it well enough.
• Nature shows us only the tail of the lion. But there is no doubt in my mind that the lion belongs with it even if he cannot reveal himself to the eye all at once because of his huge dimension. We see him only the way a louse sitting upon him would.
• [T]he distinction between past, present, and future is only an illusion, however persistent.
• Living in this “great age,” it is hard to understand that we belong to this mad, degenerate species, which imputes free will to itself. If only there were somewhere an island for the benevolent and the prudent! Then also I would want to be an ardent patriot.
• I, at any rate, am convinced that He [God] is not playing at dice.
• How strange is the lot of us mortals! Each of us is here for a brief sojourn; for what purpose he knows not, though he sometimes thinks he senses it.
• I regard class differences as contrary to justice and, in the last resort, based on force.
• I have never looked upon ease and happiness as ends in themselves—this critical basis I call the ideal of a pigsty. The ideals that have lighted my way, and time after time have given me new courage to face life cheerfully, have been Kindness, Beauty, and Truth.
• My political ideal is democracy. Let every man be respected as an individual and no man idolized. It is an irony of fate that I myself have been the recipient of excessive admiration and reverence from my fellow-beings, through no fault and no merit of my own.
• The most beautiful experience we can have is the mysterious. It is the fundamental emotion that stands at the cradle of true art and true science. Whoever does not know it and can no longer wonder, no longer marvel, is as good as dead, and his eyes are dimmed.
• An autocratic system of coercion, in my opinion, soon degenerates. For force always attracts men of low morality, and I believe it to be an invariable rule that tyrants of genius are succeeded by scoundrels.
• My passionate interest in social justice and social responsibility has always stood in curious contrast to a marked lack of desire for direct association with men and women. I am a horse for single harness, not cut out for tandem or team work. I have never belonged wholeheartedly to country or state, to my circle of friends, or even to my own family.
• Everybody is a genius.

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Tools & Methods

How to successfully write a scientific essay.

Posted by Cody Rhodes

If you are undertaking a course which relates to science, you are more or less apt to write an essay on science. You need to know how to write a science essay irrespective of whether your professor gives you a topic or you come up with one. Additionally, you need to have an end objective in mind. Writing a science essay necessitates that you produce an article which has all the details and facts about the subject matter and it ought to be to the point. Also, you need to know and understand that science essays are more or less different from other types of essays. They require you to be analytical and precise when answering questions. Hence, this can be quite challenging and tiresome. However, that should not deter you from learning how to write your paper. You can always inquire for pre-written research papers for sale from writing services like EssayZoo.

Also, you can read other people’s articles and find out how they produce and develop unique and high-quality papers. Moreover, this will help you understand how to approach your essays in different ways. Nonetheless, if you want to learn how to write a scientific paper in a successful manner, consider the following tips.

Select a topic for your article Like any other type of essay, you need to have a topic before you start the actual writing process. Your professor or instructor may give you a science essay topic to write about or ask you to come up with yours. When selecting a topic for your paper, ensure that you choose one you can write about. Do not pick a complex topic which can make the writing process boring and infuriating for you. Instead, choose one that you are familiar with. Select a topic you will not struggle gathering information about. Also, you need to have an interest in it. If you are unable to come up with a good topic, trying reading other people’s articles. This will help you develop a topic with ease.

Draft a plan After selecting a topic, the next step is drafting a plan or an outline. An outline is fundamental in writing a scientific essay as it is the foundation on which your paper is built. Additionally, it acts as a road map for your article. Hence, you need to incorporate all the thoughts and ideas you will include in your essay in the outline. You need to know what you will include in the introduction, the body, and the conclusion. Drafting a plan helps you save a lot of time when writing your paper. Also, it helps you to keep track of the primary objective of your article.

Start writing the article After drafting a plan, you can begin the writing process. Writing your paper will be smooth and easier as you have an outline which helps simplify the writing process. When writing your article, begin with a strong hook for your introduction. Dictate the direction your paper will take. Provide some background information and state the issue you will discuss as well as the solutions you have come up with. Arrange the body of your article according to the essay structure you will use to guide you. Also, ensure that you use transitory sentences to show the relationship between the paragraphs of your article. Conclude your essay by summarizing all the key points. Also, highlight the practical potential of our findings and their impacts.

Proofread and check for errors in the paper Before submitting or forwarding your article, it is fundamental that you proofread and correct all the errors that you come across. Delivering a paper that is full of mistakes can affect your overall performance in a negative manner. Thus, it is essential you revise your paper and check for errors. Correct all of them. Ask a friend to proofread your paper. He or she may spot some of the mistakes you did not come across.

In conclusion, writing a scientific essay differs from writing other types of papers. A scientific essay requires you to produce an article which has all the information and facts about the subject matter and it ought to be to the point. Nonetheless, the scientific essay formats similar to the format of any other essay: introduction, body, and conclusion. You need to use your outline to guide you through the writing process. To learn how to write a scientific essay in a successful manner, consider the tips above.

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• Albert Einstein Essay

Read Albert Einstein Essay on Vedantu

Albert Einstein was a Theoretical Physicist of German origin. He is the one who developed a pillar of modern Physics, the Theory of Relativity. Be it his mass-energy equivalence formula or his law of photoelectric effect, the theories he postulated changed the history of science forever. His works are still studied in standard institutions of learning throughout the world.

About Albert Einstein

Albert Einstein was born on 14th March 1879 in Ulm in the Kingdom of Wurttemberg in the German empire. His father's name was Herman Einstein and his mother's name was Pauline Koch. His father worked as a salesman and as an engineer. In 1880, his father along with his family moved to Munich. His father and his uncle founded Elektrotechnische Fabrik J. Einstein & Cie. It is a company that manufactures electrical equipment based on direct current.

After birth, Albert Einstein's head was much larger than his body and he was born as a deformed abnormal child. Usually, children start speaking at the age of 2, but Albert Einstein started speaking after 4 years of age. When Einstein was 5 years old, his father gifted him with a magnetic compass on his birthday. The needle of the compass used to be in the North Direction, and seeing this, he became very fascinated and developed an interest to explore science well.

His Childhood

Albert Einstein was born on 14th March 1879, in Ulm, where his family ran a small shop. He had two siblings, an elder sister named Maja and a younger brother named Hans Albert. The Einsteins were non-observant Jews and moved to Munich when Albert was one year old. His parents wanted him to become a businessman, but he showed scientific inclinations from his childhood days. From 1890, the family resided in Milan where Einstein underwent Technical High School education. Since his father had relocated to Italy for work purposes, Albert Einstein decided not to move with his family to Berlin after matriculating from the Zurich Polytechnic in 1896.

He had problems with authority and left his academic institutions without a degree on several occasions. He started working as a patent clerk at the Swiss Patent Office in 1902, where he spent most of his time on theoretical physics. In 1905, he published four papers that revolutionized Physics. They were on (I) Brownian motion, (ii) photoelectric effect, (iii) special relativity and (iv) equivalence of mass and energy, which is famously known as the E=mc 2 equation. He worked on unified field Theory for more than ten years but was unable to complete it.

At the age of 5, he joined the Catholic Elementary School in Munich. After that, he enrolled in Luitpold Gymnasium, where he received his primary and secondary school education. When Albert Einstein was 15 years old, his father wanted him to do electrical engineering but Einstein used to fight with the authority of his school, about their way of teaching. He believed that due to so many strict rules and regulations in the school, the creative mind of children was lost and they only knew the strict rote learning. Einstein was thrown out of school too many times due to this behavior of his. He used to fight with his teachers, he also raised questions about their way of teaching.

At the age of 12, Einstein started learning Calculus on his own, and when he became 14 years old, he mastered Integral and Differential Calculus. Einstein got married in 1903 to Marci. In 1904 his son named Hans Albert Einstein was born, and in 1910 his second son Eduard was born.

Contribution Towards Science

Albert received a patent officer job at the Federal Office for Intellectual Property in Bern, Switzerland, at the age of 23, after completing college. While working there, he completed his Ph.D., after which he became a professor at the University of Zurich. During this period he gave the theory of mass-energy (E = mc 2 ). The atomic bombs dropped in Japan were built on this principle. However, throughout his life, Albert Einstein was against the atomic bomb dropped on Japan. He then gave a new theory of relativity, falsifying the old rules of relativity given by Isaac Newton, which proved that time and light are not constant. If traveling at the speed of light, i.e. 300000 km, it will be slow, and millions of years have passed on Earth. That is, he proved that time travel can be done. However, till date scientists have not been able to build a spaceship that can travel at the speed of light. 

In 1977, NASA conducted an experiment to prove this theory in which they set the clock in a satellite and were left to orbit the Earth. After a few years, when the satellite's clock was checked, it was much slower than the Earth's clock. In this theory of quantum physics, Indian scientist Satyendra Nath Bose wrote a letter from India to Albert Einstein in which he said that Newton's relativity theory is wrong. Albert Einstein then agreed to the letter of Satyendra Nath Bose, and he published that paper and later gave a new theory of relativity. Albert Einstein made many other inventions with this theory. 

He received the Nobel Prize in Physics in 1981 for his photoelectric effect. In 1933, Hitler killed millions of people in Germany, and at the same time, Albert Einstein was changing the whole world with science. He went to America from Europe forever, taking the citizenship there because Hitler placed a reward of \[$\]5000 on Albert Einstein's head and burned all his research books.

Moving to the United States

During World War-I, he was invited to join the Bureau of Standards in Washington before accepting its offer officially. He moved to the United States of America with his family in April 1933 after Hitler's rise to power.

He advised breaking up Bell Labs and nationalizing the electricity supply industry, worked on defense projects during World War II, and became a citizen of the United States in 1940.

In 1951, he was awarded the Nobel Prize in Physics "for his services to Theoretical Physics, and especially for his discovery of the law of the photoelectric effect."

Albert Einstein died on 18th April 1955 at Princeton Hospital, New Jersey. He was 76 years old.

Death and Awards

On 17th April 1955, Einstein underwent internal bleeding in the Lower Abdominal, and he was taken to a hospital where the doctor asked him to undergo a surgery. Albert Einstein refused to undergo the surgery, and said that he would go when he wanted, and that it is tasteless to prolong life artificially. He told me that he would like to die like that. Later research was done on Albert Einstein's brain and it was found that the parts of Einstein's brain that were for mathematical calculus had developed 15% more as compared to the brains of normal people.

The whole world celebrates Albert Einstein's birthday on 14th March as World Genius Day. He had published more than 300 research papers on science in his life and had contributed to the advancement of science. This is the reason that Times magazine has awarded Albert Einstein the title of Person of the Century. Einstein received numerous awards and honors, and in 1922, he was awarded the Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect".

Conclusion  

Albert Einstein was one of the best scientists, mathematicians, and physicists of the 20th century. In the early twentieth century, Albert Einstein formulated theories that changed the thinking of physicists and non-specialists alike. He will always be remembered for his law of photoelectric effect and mass-energy equivalence formula. His body of work is studied in universities across the world to this day. He is a famous and known name in the world of Physics, he also achieved a lot, and was awarded the Nobel Prize for his commendable research and accomplishments.

FAQs on Albert Einstein Essay

1. Why did Albert Einstein Have No Social Life?

Albert Einstein was a very intelligent person. He had no time for a social life because he was always busy with his research and work. Albert Einstein had more than 40 publications to his credit. His life and work were on research and inventions. His life revolved around his work and family. The work-life of Albert Einstein is an inspiration to all the people who are working day and night to achieve something great in their lives. One of the best scientists, mathematicians and physicists of the 20th century was none other than Albert Einstein. His achievement includes the most discussed formula in his name- the mass-energy equivalence equation. He was known for the impact he made on the world of physics and also for the awards and honors he received in his lifetime.

2. What Was the Theory of Relativity by Albert Einstein?

The theory of relativity is the scientific theory developed by Albert Einstein between 1905 and 1915. It is a theory of gravity and space-time. The theory revolutionized physics by proposing that the laws of physics are the same for all inertial frames of reference. That is, the laws of physics are the same whether an observer is stationary or in motion. The theory also proposed that the speed of light is a constant for all observers, regardless of their relative motion. This was a radical departure from classical mechanics and Newton's view of the universe. His theory is the basis for many features of our modern life and is used in daily applications. You can learn more about the theory of relativity in any good physics textbook.

3. What Did Albert Einstein Do for Science?

Albert Einstein was a German theoretical physicist who developed the theory of general relativity, effecting a revolution in physics. He is best known in popular culture for his mass-energy equivalence formula E = mc 2 (which has been dubbed "the world's most famous equation"). He received the 1921 Nobel Prize in Physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect". This makes Einstein the only physicist to win twice. He is also known for his other great works, such as the world's smallest unit of time and explaining the Brownian motion of particles. His life's work has had a great impact on the modern world and the way we see things.

4. What Awards Did Albert Einstein Receive in His Lifetime?

Albert Einstein was one of the most genius scientists of all time. He is known for his great works in Physics. He also received a lot of awards in his lifetime. Albert Einstein won the Nobel Prize in 1921 for physics "for his services to theoretical physics, and especially for his discovery of the law of the photoelectric effect". He is the only physicist to have been awarded a Nobel Prize twice. In 1921, he received the Nobel Prize in physics. In his acceptance lecture, titled "The Field Theory of Matter", he provided what is now viewed as a foundation for relativistic quantum field theory. Einstein was voted number 3 in BBC's poll of the 100 Greatest Britons.

5. Why Was Einstein Thought of as a Genius?

Albert Einstein was a brilliant and intelligent man. He changed the world because of his scientific ideas and theories. He is known for the mass-energy equivalence formula (E=mc 2 ); he came up with it in 1905; before coming to this theory, he did not have any notable publications. However, by the end of this year, he had already submitted two articles to Annalen der Physik. One of these was on the photoelectric effect, while the other was on "A new determination of molecular dimensions". Albert Einstein is considered a genius because he looked at things in an entirely different way than anyone else did before him. He also had wonderful ideas about space and time that changed the way we think about those things.

6. What Were the Names of Albert Einstein’s Father and Mother?

Albert Einstein was born on 14th March 1879 in Ulm in the Kingdom of  Wurttemberg in the German empire. His father’s name was Herman Einstein and His Mother’s name was Pauline Koch.

7. How Albert Einstein Was Different from Normal Kids?

After birth, Albert Einstein's head was much larger than his body and he was born as a deformed abnormal child. Usually, children start speaking at the age of 2, but in the case of Albert Einstein, he started speaking after 4 years of age. At the age of 12, Einstein learning Calculus and when he became 14 years old he had mastered Integral and Differential Calculus which is obviously not normal for any other kid.

53 Scientist Essay Topic Ideas & Examples

🏆 best scientist topic ideas & essay examples, 📌 most interesting scientist topics to write about, 👍 good research topics about scientist.

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• Scientist Charles Darwin & Evolution By the year 1846, Darwin had a number of publications relating to zoological and geological discoveries of his expedition works that catapulted him in the scientists front rank.
• Scientist’s Role in Mary Shelley’s Frankenstein The great issues of the day were the main focus of articles as well as the works of fiction that were becoming much more popular as the price of books fell.”The Victorian novel, with its […]
• Scientist-Practitioner Model in Psychology It is clear that the scientific practitioner is not just to read so as to prepare scientists and practitioner psychologists but to read and integrate these roles so that the practice by the psychologist is […]
• Scientist’s Role in “Frankenstein” by Mary Shelly Every action and character in the novel, in this manner, is linked to and affected by the role of the scientist protagonist Victor Frankenstein.
• Christian Scientists in the USA Adopting the idea that Christ is good and the healing is based on the faith, the church’s followers declared the easiness of the principles of Christian Science.
• Should There Be a Limit to What Scientists Can Discover and Create When It Relates to the Wealfare of Humanity? In addition the movement of people and cargo around the world has been improved and safety enhanced due to advances in technology.
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• The Life and Contributions of Grace Murray Hopper, an American Computer Scientist
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• Understanding the History of a Biomedical Scientists
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• Why Not to Put a Raincoat on Your Dog: A Cognitive Scientist Explains the Canine Umwelt
• The Contributions of the Artist and Scientist Leonardo da Vinci and the Designer of the Hyper Loop, Elon Musk
• The Strengths and Weaknesses of the Scientist Practitioner Approach
• Scientist and Contributions to the Periodic Table
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• Mathematician’s Knowledge versus Scientist’s Knowledge
• Women in Science: Einstein’s Advice to a Little Girl Who Wants to Be a Scientist
• International Scientist Mobility and the Locus of Technology Transfer
• The Life of Rene Descartes, a French Philosopher and Scientist
• The Life and Works of Donald Knuth, an American Computer Scientist and Mathematician
• The Perils Of Presidentialism, Political Scientist, By Jose Linz
• The Scientist Who Wanted President Roosevelt to Test His Time Travelling Machine
• The Significance of Language and Its Impact on Scientist’s Morale and Drive
• Karl Landsteiner, The Brilliant And Skillful Scientist
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• The Designer God and the Human Understanding of the Universe in A Catholic Scientist Looks at Evolution by George Coyne
• The Hidden Messages Of Water, Japanese Scientist, Dr. Masaru
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Science Essay

Learn How to Write an A+ Science Essay

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Did you ever imagine that essay writing was just for students in the Humanities? Well, think again! 

For science students, tackling a science essay might seem challenging, as it not only demands a deep understanding of the subject but also strong writing skills. 

However, fret not because we've got your back!

With the right steps and tips, you can write an engaging and informative science essay easily!

This blog will take you through all the important steps of writing a science essay, from choosing a topic to presenting the final work.

So, let's get into it!

• 1. What Is a Science Essay?
• 2. How To Write a Science Essay?
• 3. How to Structure a Science Essay?
• 4. Science Essay Examples
• 5. How to Choose the Right Science Essay Topic
• 6. Science Essay Topics
• 7. Science Essay Writing Tips

What Is a Science Essay?

A science essay is an academic paper focusing on a scientific topic from physics, chemistry, biology, or any other scientific field.

Science essays are mostly expository. That is, they require you to explain your chosen topic in detail. However, they can also be descriptive and exploratory.

A descriptive science essay aims to describe a certain scientific phenomenon according to established knowledge.

On the other hand, the exploratory science essay requires you to go beyond the current theories and explore new interpretations.

So before you set out to write your essay, always check out the instructions given by your instructor. Whether a science essay is expository or exploratory must be clear from the start. Or, if you face any difficulty, you can take help from a science essay writer as well. 

Moreover, check out this video to understand scientific writing in detail.

Now that you know what it is, let's look at the steps you need to take to write a science essay. 

Paper Due? Why Suffer? That's our Job!

How To Write a Science Essay?

Writing a science essay is not as complex as it may seem. All you need to do is follow the right steps to create an impressive piece of work that meets the assigned criteria.

Here's what you need to do:

Choose Your Topic

A good topic forms the foundation for an engaging and well-written essay. Therefore, you should ensure that you pick something interesting or relevant to your field of study. 

To choose a good topic, you can brainstorm ideas relating to the subject matter. You may also find inspiration from other science essays or articles about the same topic.

Conduct Research

Once you have chosen your topic, start researching it thoroughly to develop a strong argument or discussion in your essay. 

Make sure you use reliable sources and cite them properly . You should also make notes while conducting your research so that you can reference them easily when writing the essay. Or, you can get expert assistance from an essay writing service to manage your citations. 

Create an Outline

A good essay outline helps to organize the ideas in your paper. It serves as a guide throughout the writing process and ensures you don’t miss out on important points.

An outline makes it easier to write a well-structured paper that flows logically. It should be detailed enough to guide you through the entire writing process.

However, your outline should be flexible, and it's sometimes better to change it along the way to improve your structure.

Start Writing

Once you have a good outline, start writing the essay by following your plan.

The first step in writing any essay is to draft it. This means putting your thoughts down on paper in a rough form without worrying about grammar or spelling mistakes.

So begin your essay by introducing the topic, then carefully explain it using evidence and examples to support your argument.

Don't worry if your first draft isn't perfect - it's just the starting point!

Proofread & Edit

After finishing your first draft, take time to proofread and edit it for grammar and spelling mistakes.

Proofreading is the process of checking for grammatical mistakes. It should be done after you have finished writing your essay.

Editing, on the other hand, involves reviewing the structure and organization of your essay and its content. It should be done before you submit your final work.

Both proofreading and editing are essential for producing a high-quality essay. Make sure to give yourself enough time to do them properly!

After revising the essay, you should format it according to the guidelines given by your instructor. This could involve using a specific font size, page margins, or citation style.

Most science essays are written in Times New Roman font with 12-point size and double spacing. The margins should be 1 inch on all sides, and the text should be justified.

In addition, you must cite your sources properly using a recognized citation style such as APA , Chicago , or Harvard . Make sure to follow the guidelines closely so that your essay looks professional.

Following these steps will help you create an informative and well-structured science essay that meets the given criteria.

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How to Structure a Science Essay?

A basic science essay structure includes an introduction, body, and conclusion. 

Let's look at each of these briefly.

• Introduction

Your essay introduction should introduce your topic and provide a brief overview of what you will discuss in the essay. It should also state your thesis or main argument.

For instance, a thesis statement for a science essay could be, 

"The human body is capable of incredible feats, as evidenced by the many athletes who have competed in the Olympic games."

The body of your essay will contain the bulk of your argument or discussion. It should be divided into paragraphs, each discussing a different point.

For instance, imagine you were writing about sports and the human body. 

Your first paragraph can discuss the physical capabilities of the human body. 

The second paragraph may be about the physical benefits of competing in sports. 

Similarly, in the third paragraph, you can present one or two case studies of specific athletes to support your point. 

Once you have explained all your points in the body, it’s time to conclude the essay.

Your essay conclusion should summarize the main points of your essay and leave the reader with a sense of closure.

In the conclusion, you reiterate your thesis and sum up your arguments. You can also suggest implications or potential applications of the ideas discussed in the essay. 

By following this structure, you will create a well-organized essay.

Check out a few example essays to see this structure in practice.

Science Essay Examples

A great way to get inspired when writing a science essay is to look at other examples of successful essays written by others. 

Here are some examples that will give you an idea of how to write your essay.

Science Essay About Genetics - Science Essay Example

Environmental Science Essay Example | PDF Sample

The Science of Nanotechnology

Science, Non-Science, and Pseudo-Science

The Science Of Science Education

Science in our Daily Lives

Short Science Essay Example

Let’s take a look at a short science essay: 

Want to read more essay examples? Here, you can find more science essay examples to learn from.

How to Choose the Right Science Essay Topic

Choosing the right science essay topic is a critical first step in crafting a compelling and engaging essay. Here's a concise guide on how to make this decision wisely:

• Consider Your Interests: Start by reflecting on your personal interests within the realm of science. Selecting a topic that genuinely fascinates you will make the research and writing process more enjoyable and motivated.
• Relevance to the Course: Ensure that your chosen topic aligns with your course or assignment requirements. Read the assignment guidelines carefully to understand the scope and focus expected by your instructor.
• Current Trends and Issues: Stay updated with the latest scientific developments and trends. Opting for a topic that addresses contemporary issues not only makes your essay relevant but also demonstrates your awareness of current events in the field.
• Narrow Down the Scope: Science is vast, so narrow your topic to a manageable scope. Instead of a broad subject like "Climate Change," consider a more specific angle like "The Impact of Melting Arctic Ice on Global Sea Levels."
• Available Resources: Ensure that there are sufficient credible sources and research materials available for your chosen topic. A lack of resources can hinder your research efforts.
• Discuss with Your Instructor: If you're uncertain about your topic choice, don't hesitate to consult your instructor or professor. They can provide valuable guidance and may even suggest specific topics based on your academic goals.

Science Essay Topics

Choosing an appropriate topic for a science essay is one of the first steps in writing a successful paper.

Here are a few science essay topics to get you started:

• How space exploration affects our daily lives?
• How has technology changed our understanding of medicine?
• Are there ethical considerations to consider when conducting scientific research?
• How does climate change affect the biodiversity of different parts of the world?
• How can artificial intelligence be used in medicine?
• What impact have vaccines had on global health?
• What is the future of renewable energy?
• How do we ensure that genetically modified organisms are safe for humans and the environment?
• The influence of social media on human behavior: A social science perspective
• What are the potential risks and benefits of stem cell therapy?

Important science topics can cover anything from space exploration to chemistry and biology. So you can choose any topic according to your interests!

Need more topics? We have gathered 100+ science essay topics to help you find a great topic!

Continue reading to find some tips to help you write a successful science essay. 

Science Essay Writing Tips

Once you have chosen a topic and looked at examples, it's time to start writing the science essay.

Here are some key tips for a successful essay:

• Research thoroughly

Make sure you do extensive research before you begin writing your paper. This will ensure that the facts and figures you include are accurate and supported by reliable sources.

• Use clear language

Avoid using jargon or overly technical language when writing your essay. Plain language is easier to understand and more engaging for readers.

• Referencing

Always provide references for any information you include in your essay. This will demonstrate that you acknowledge other people's work and show that the evidence you use is credible.

Make sure to follow the basic structure of an essay and organize your thoughts into clear sections. This will improve the flow and make your essay easier to read.

• Ask someone to proofread

It’s also a good idea to get someone else to proofread your work as they may spot mistakes that you have missed.

These few tips will help ensure that your science essay is well-written and informative!

You've learned the steps to writing a successful science essay and looked at some examples and topics to get you started. 

Make sure you thoroughly research, use clear language, structure your thoughts, and proofread your essay. With these tips, you’re sure to write a great science essay! 

Do you still need expert help writing a science essay? Our science essay writing service is here to help. With our team of professional writers, you can rest assured that your essay will be written to the highest standards.

Contact our online writing service now to get started!

Also, do not forget to try our essay typer tool for quick and cost-free aid with your essays!

Write Essay Within 60 Seconds!

Betty is a freelance writer and researcher. She has a Masters in literature and enjoys providing writing services to her clients. Betty is an avid reader and loves learning new things. She has provided writing services to clients from all academic levels and related academic fields.

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How to Write a Scientific Essay

When writing any essay it’s important to always keep the end goal in mind. You want to produce a document that is detailed, factual, about the subject matter and most importantly to the point.

Writing scientific essays will always be slightly different to when you write an essay for say English Literature . You need to be more analytical and precise when answering your questions. To help achieve this, you need to keep three golden rules in mind.

• Analysing the question, so that you know exactly what you have to do

Planning your answer

• Writing the essay

Now, let’s look at these steps in more detail to help you fully understand how to apply the three golden rules.

Analysing the question

• Start by looking at the instruction. Essays need to be written out in continuous prose. You shouldn’t be using bullet points or writing in note form.
• If it helps to make a particular point, however, you can use a diagram providing it is relevant and adequately explained.
• Look at the topic you are required to write about. The wording of the essay title tells you what you should confine your answer to – there is no place for interesting facts about other areas.

The next step is to plan your answer. What we are going to try to do is show you how to produce an effective plan in a very short time. You need a framework to show your knowledge otherwise it is too easy to concentrate on only a few aspects.

For example, when writing an essay on biology we can divide the topic up in a number of different ways. So, if you have to answer a question like ‘Outline the main properties of life and system reproduction’

The steps for planning are simple. Firstly, define the main terms within the question that need to be addressed. Then list the properties asked for and lastly, roughly assess how many words of your word count you are going to allocate to each term.

Writing the Essay

The final step (you’re almost there), now you have your plan in place for the essay, it’s time to get it all down in black and white. Follow your plan for answering the question, making sure you stick to the word count, check your spelling and grammar and give credit where credit’s (always reference your sources).

How Tutors Breakdown Essays

An exceptional essay

• reflects the detail that could be expected from a comprehensive knowledge and understanding of relevant parts of the specification
• is free from fundamental errors
• maintains appropriate depth and accuracy throughout
• includes two or more paragraphs of material that indicates greater depth or breadth of study

A good essay

An average essay

• contains a significant amount of material that reflects the detail that could be expected from a knowledge and understanding of relevant parts of the specification.

In practice this will amount to about half the essay.

• is likely to reflect limited knowledge of some areas and to be patchy in quality
• demonstrates a good understanding of basic principles with some errors and evidence of misunderstanding

A poor essay

• contains much material which is below the level expected of a candidate who has completed the course
• Contains fundamental errors reflecting a poor grasp of basic principles and concepts

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My Favourite Scientist – Short Essay

Category: Essays and Paragraphs On January 13, 2019 By Ananda

Scientists are great individuals. They bring about innovation . They introduce us to new things. They are the ones who have the power to uncover and discover things which may be in front of us but, we couldn’t see them or discover them. Scientists play a very crucial role in the development of a country and the world at the whole. One invention can benefit thousands of lives. Every necessary thing we use in our day to day lives is an invention by some renowned scientist. But, we take scientists for granted and don’t care for their feats and how they have benefitted us.

My favourite scientist is late A.P.J Abdul Kalam. He was a great personality. He was a true scientist. He knew the science of life more than tangible science. He knew how love can discover inventions of great potential, hidden in people. His motto to help everyone was the greatest discovery in itself.

It was sir APJ Abdul Kalam who came out as a scientist and discovered the act of helping. He showed people how to help. How can everyone help and invent a world where nobody fights. Where lending a helping hand is a must. He was the true scientist as he knew the chemistry of hearts . He knew how to win hearts. The way he used to send waves of euphoria into children were no less than electric waves. He knew exactly which wire to hit with the current.

With this, he was also a successful scientist in tangible science. He was the missile man of India. He was the one who invented missiles for India. His contributions to the scientific sector of India has been great. And of course, we know how good he was in the sector of hearts and souls.

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Essay on My Favourite Scientist | Short Paragraph

December 3, 2017 by Study Mentor 3 Comments

Of all the scientists I have read about, I like Thomas Alva Edison (born on 11 February 1847,) the best, because he was a hard worker and a very fine human being.

He is credited with inventing the telegraph, the electric bulb, the telephone, the dynamo, the motion picture machine and the electric train.

There are hundreds of other minor appliances that he invented. Such a great and genius personality. By the way, in school life  he was not very clever, but he was hardworking. As a scientist, he was patient and humble and kind.

He encouraged the youth to work hard and to learn from their mistake. He is the only man who first provided the entire city of New York with electricity. The next city he electrified was Paris.

Even though he met with failure many a time, he was not discouraged. He tried every possible known metal to make the filament of the electric bulb. Every time the bulb would glow for a short time and then burn out.

Just by chance he decides to use a non-metal. Carbon. Wonder of wonder – the bulb not only emitted light, but kept on doing so for a long time.  It was his patience that gave him victory over darkness.

He is my role model too. Just because of his patience and dedication towards work lead’s him to be successful.

In today’s life whether we used electric bulb, or the latest Led bulb, no matter, but we should always recall this man, who gave path to light over the darkness.

I do hope that when I grow up I become a scientist like Thomas Edison and work like him.

Some of Thomas Edison Inventions

• Autographic printer
• Carbon microphone
• Kinetoscope
• Electric Bulb

Awards Edison got for his successful inventions

• Edward Longstreth Medal
• Albert Medal

Many more to be listed, but I have describe few of them above.

Table of Contents

My Favourite Scientist Dr. A.P.J. Abdul Kalam

It is very important to have a role model in our lives who will inspire us to be someone in future so as to leave an everlasting mark on history. Having a knack for science, my favorite scientist and role model had always been the late Dr.A.P.J. Abdul Kalam, one of the leading scientists of India’s space program, and also the former President of India

The life of Dr.Kalam is a tale of perseverance and has numerous things that we can learn from both from the perspective of science as well as for the betterment of ourselves and an individual.

HIS EARLY LIFE AND STRUGGLES

He was born into a middle class Tamil family in an island town of Rameswaram in the state of Madras. His father Jainulabdeen didn’t have any kind of formal education, nor was he wealthy. In spite of all these hindrances, he had in himself great wisdom and had a truly generous spirit.

His mother Ashiiamma was a lady full of care for everyone around. She loved to feed people and every day at home far more number of people ate than the total members of their family.

Young Dr.Kalam had many siblings. He was short with undistinguished looks. His father always preached and practiced to live a life devoid of all unnecessary luxuries.

HIS STUDENT LIFE

After completing his bachelors in science in Physics, he wanted to study engineering. In order to fund this desire of his, his sister, had mortgaged her gold bangles to procure money. While in the first year of engineering at the Madras Institute of Technology, Kalam always

desired to fly and had subsequently chosen aerospace engineering as his field of specialization.

After graduating from the Madras institute of Technology, Dr. Kalam joined the Defense Research and Space Organization (DRDO).

His work was of such vigour and prominence that just after nine years of service there, he was transferred to the Indian Space Research Organization (ISRO) as the project director of India’s first Satellite Launch Vehicle (SLV-III) which after 10 years of hard work came into reality placing the Rohini Satellite in the near-earth orbit.

The story of this SLV development also teaches us something greatly about Dr.Kalam, that how he was a person of immense hope and indomitable spirit. The ISRO team had faced many setbacks before the Rohini satellite was finally successfully orbited in 1980.

During the mid-70s, when they had prepared a launch vehicle, instead of going to the orbit, the satellite failed and landed into the Bay of Bengal. Everyone but Dr.Kalam was disappointed. When time came for the press conference, he did not let any of his team members go to the stage, he himself faced all the criticisms and ill-talks.

Few years later when the mission was successful, at the press conference, Dr.Kalam was at the back and he told his team to go to stage and take the credit. This spirit of Dr. Kalam is truly remarkable, both as a scientist as well as a human being. He was an ideal leader when time came to face the harsh setbacks; he was the one who took responsibility for it, whereas when success was achieved, he gave the credit to his team.

HIS INDOMITABLE SPIRIT

Dr.Kalam since the days of his early student hood had a desire to fly. So he applied for the test for being a fighter jet pilot. He was rejected narrowly. He placed nine for the post which had only eight vacancies.

Post this defeat he was extremely disappointed and for once thought of quitting everything and becoming a saint. But it was only because of his indomitable spirit that he did not give up and tried other avenues where his skills were put to better use.

His achievements as a scientist

Dr.Kalam had a very illustrious career as a scientist successfully launched satellite Rohini to orbit through the SLV-III.

In the 1980s he led India’s missile programme. Under his leadership, India became a major military power after the successes of Agni and Prithvi.

Not only in the field of aviation and defense. Dr.Kalam’s work toward the development of nation knew no bounds and had no limit to his scope of work. In 1998, along with cardiologist Dr.Soma Raju, Kalam developed a low cost Coronary stent. It was named as “Kalam-Raju Stent” honouring them

In 1998, the Pokhran-II tests showcased India’s nuclear capabilities to the world. Mr Kalam’s role was instrumental in the project.

His views on war

Dr.APJ Abdul Kalam, had a very interesting opinion about war and weapons. He was a peace loving man till death and never ever had resorted to any form of violence to achieve some specific target. However he was of the opinion that every country should be self-sufficient in terms of armory and their inventory of weapons should be as powerful. He always said that weapons are necessary to prevent war. He used to call nuclear weapons as ‘weapons of peace’.

His love for Everyone

Dr. Kalam while serving his term of Presidency did everything in his power to not only spread love for science but also bring the masses closer to the government.

He was known for making trips pan India meeting students and addressing gatherings inspiring them with his words of wisdom. He loved children and the children loved him too. Till date he is considered by many to be the most knowledgeable and approachable President that the country has ever seen.

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Essay on I Want to Be Scientist

Students are often asked to write an essay on I Want to Be Scientist in their schools and colleges. And if you’re also looking for the same, we have created 100-word, 250-word, and 500-word essays on the topic.

Let’s take a look…

100 Words Essay on I Want to Be Scientist

Introduction.

I aspire to be a scientist. This dream is not just about wearing a white coat and working in a lab. It’s about curiosity, discovery, and contributing to the world.

Why a Scientist?

Scientists are like explorers, uncovering the mysteries of the universe. They make the impossible, possible. I want to be part of this adventure.

Contribution to Society

As a scientist, I hope to make a difference. Whether it’s finding a cure for a disease or inventing new technology, I want to help people and improve their lives.

Becoming a scientist is my dream. I am ready to work hard and stay curious, to make this dream come true.

250 Words Essay on I Want to Be Scientist

The pursuit of knowledge and the desire to unravel the mysteries of the universe have always fascinated me, thus propelling my aspiration to become a scientist. This is not a mere profession, but a commitment to continuous learning, discovery and innovation.

The Allure of Science

Science, with its undying curiosity and constant questioning, represents the epitome of human intellect. It is the driving force behind our technological advancements and the understanding of our existence. As a scientist, I would have the privilege to contribute to this vast body of knowledge and potentially revolutionize the way we perceive the world.

Contributing to Society

Scientists play a critical role in society. They not only contribute to technological advancements but also address pressing issues such as climate change, disease outbreaks, and energy crises. My desire to become a scientist stems from the ambition to create solutions that could significantly improve the quality of life and ensure the sustainability of our planet.

The Joy of Discovery

The thrill associated with the discovery of something new, the eureka moment, is unparalleled. It’s the joy of contributing something original to the world, of pushing the boundaries of human knowledge. This sense of accomplishment and the potential for making a significant impact is what draws me towards a career in science.

In conclusion, my aspiration to become a scientist is driven by a passion for knowledge, a desire to contribute to society, and the exhilaration of discovery. It is a path that requires dedication, curiosity, and resilience, but the rewards are immeasurable. As I step into the future, I look forward to embarking on this journey of exploration and innovation.

500 Words Essay on I Want to Be Scientist

The allure of the scientific profession.

The journey to becoming a scientist is an exploration of curiosity, a quest for understanding the universe, and a commitment to discovering new knowledge. I have always been fascinated by the world around me, and this curiosity has driven my desire to become a scientist.

Scientific Inquiry as a Passion

Science is a field that is constantly evolving, offering endless opportunities for discovery. It is not just about memorizing facts and figures, but about asking questions and seeking answers. This process of inquiry is what fuels my passion for science. The thought of being able to contribute to our collective understanding of the world is exhilarating.

The Role of a Scientist

Scientists play a crucial role in society. They are the explorers of our time, charting the unknown territories of our universe. They are also problem solvers, using their knowledge and skills to address the challenges that our world faces. Whether it’s developing a new technology, finding a cure for a disease, or addressing environmental issues, scientists are at the forefront of finding solutions.

Areas of Interest

My areas of interest are vast, spanning from physics to biology, from chemistry to earth sciences. Each field holds its unique allure, but I am particularly drawn to the study of astrophysics. The mysteries of the universe have always intrigued me, and I long to contribute to our understanding of it.

The Path to Becoming a Scientist

The path to becoming a scientist is challenging, requiring years of study and dedication. It involves obtaining a solid foundation in the basic sciences, followed by specialized study in a chosen field. This is typically pursued through a bachelor’s degree, followed by a master’s and then a doctorate.

The Importance of Research

Research is at the heart of the scientific process. It involves not only conducting experiments but also interpreting the results and drawing conclusions. The ability to analyze data, think critically, and develop hypotheses is what sets scientists apart. It’s a skill set that I am eager to develop and refine.

The Impact of Science on Society

The impact of science on society is profound. It has the ability to transform lives, shape policies, and drive technological innovation. As a scientist, I would have the opportunity to contribute to these changes and make a real difference in the world.

In conclusion, my desire to become a scientist stems from a deep-seated curiosity about the world, a passion for discovery, and a desire to contribute to society. The journey may be long and challenging, but the rewards are immeasurable. As I embark on this journey, I am filled with anticipation for the discoveries that lie ahead.

That’s it! I hope the essay helped you.

If you’re looking for more, here are essays on other interesting topics:

• Essay on The Great Scientist
• Essay on My Favorite Scientist
• Essay on Punjabi Culture

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• CAREER FEATURE
• 01 April 2024

How scientists are making the most of Reddit

• Hannah Docter-Loeb 0

Hannah Docter-Loeb is a freelance writer in Washington DC.

You can also search for this author in PubMed   Google Scholar

You have full access to this article via your institution.

Reddit’s many ‘subreddit’ communities offer channels for discussing science and are of interest to social-media scholars. Credit: Amy Lombard/New York Times/Redux/eyevine

It has been almost 18 months since Elon Musk purchased Twitter, now known as X. Since the tech mogul took ownership, in October 2022, the number of daily active users of the platform’s mobile app has fallen by around 15%, and in April 2023 the company cut its workforce by 80%. Thousands of scientists are reducing the time they spend on the platform ( Nature 613 , 19–21; 2023 ). Some have gravitated towards newer social-media alternatives, such as Mastodon and Bluesky. But others are finding a home on a system that pre-dates Twitter: Reddit.

The site was founded in 2005, originally as one all-encompassing forum where users (known as redditors) could post content such as links, texts, images and videos. Anonymous user upvote (or downvote) and comment on each other’s content, deciding on what performs well enough to reach others’ feeds.

Social media for scientists

Today, Reddit is divided into communities, called subreddits, each with volunteer moderators who review content. These subreddits have names that begin with ‘r/’ and are devoted to all sorts of subjects, such as literature, solo travel and Washington DC. Reddit is regularly irreverent: r/trees is for people to share content about marijuana, whereas r/marijuanaenthusiasts is the place to look at trees. It is sometimes dangerous — some communities have amplified conspiracy theories. And there are subreddits devoted to science, ranging from the broad r/science to more specific ones, such as r/bacteriophages.

As of December 2023, according to Reddit’s own statistics, the site had 73 million daily active users, more than 100,000 active communities and had amassed over 16 billion posts and comments. In February 2024, it was the eighth most visited website in the world, ahead of both Amazon and TikTok (see go.nature.com/3tugxbq ). And on 20 March, the company floated on the New York Stock Exchange, where it was initially valued at US$6.4 billion. With most researchers now needing to pay to download useful amounts of data on X, Reddit is another option to survey the Internet hivemind. Although changes made last year threaten researchers’ ability to pull data as easily as they once did, Reddit says access to its data continues to be free for non-commercial researchers and academics.

“As the social-media landscape started changing, we really started thinking about the other spaces besides Twitter that people are using,” says Nicholas Proferes, a social media researcher at Arizona State University’s School of Social and Behavioral Sciences in Phoenix, who co-authored reviews on the use of Reddit for research 1 , 2 . Here, Nature reports on how Reddit is providing scientists with continued avenues for connecting with other researchers, gathering data and engaging with the public.

Networking and collaboration

Yvette Cendes’s journey on Reddit began in 2014. Cendes, who is currently a postdoctoral scholar at the Harvard–Smithsonian Center for Astrophysics in Cambridge, Massachusetts, found herself with some downtime during her PhD studies in astronomy, and started poking around on the platform. She came across a thread in which users were panicking over how imminent γ-ray bursts from supernovae were going to wreak havoc and kill people — something that she knew to be untrue. She resolved to jump into the comments and clear things up, and this was the start of her science-communication career.

Since then, Cendes has made a name for herself on Reddit and even created her own subreddit, with nearly 17,000 members. “It’s a very good way to get good knowledge out there,” she says.

Scientists also use Reddit to get tips and tricks from other scientists. The r/biotech subreddit features news about biotechnology innovations and career advice; r/datascience is a community specifically for data-science professionals. There’s even a subreddit devoted to electron microscopy, from which users can seek guidance on the technology.

Yvette Cendes discusses astronomy as a science and a career on Reddit. Credit: Floris Looijesteijn

Not everyone is as forthcoming with their names and credentials on Reddit, which can make networking a bit more challenging than on other sites, says Cendes. But the pseudoanonymity can also be beneficial. Groups such as r/labrats offer safe spaces for scientists to discuss their research or dilemmas with others of similar backgrounds (and these groups are sometimes used by science journalists looking for article ideas). The anonymity provides some protection for people to post without fear of retaliation, and to seek counsel. In one discussion, for instance, a user laments how their principal investigator published a paper based on their research without giving credit, and considers hiring legal support.

Reddit can also be a great jumping-off point for early-career scientists or those trying to pivot between specialties. Kevin Ortiz Ceballos, a graduate student at Harvard University’s Department of Astronomy, happened upon one of Cendes’ posts about how to become an astronomer back when he was in secondary school. He credits it with helping him to switch from literature to physics and eventually astrophysics. Engaging in conversations about professional astronomy before entering the field himself was a huge asset.

“The fact that Yvette made it so accessible gave me the tools I needed to take the necessary steps to study and prepare what I needed to get into astronomy grad school,” he says. The two have since connected in person, and even collaborated on a project that was recently submitted for publication.

With all of its subspaces, Reddit can be overwhelming at first. Cendes encourages potential users to take it slowly, find the communities they are most interested in and go from there — putting keywords in the search function and perusing the different subreddits that come up.

Research and analysis

The information embedded in posts and comments from Reddit’s millions of users can also be a treasure trove for researchers studying online behaviours. In 2022, NASA collaborated with master’s students at the University of British Columbia in Vancouver, Canada, to use Reddit data to locate landslides (see go.nature.com/3tlum6t ). The team scraped the site for mentions of ‘landslide’, before analysing and validating relevant mentions to add to the NASA landslides database. According to the team, this verification was needed because a Reddit post about the song ‘Landslide’ by the rock band Fleetwood Mac might “give us insight about the changes and challenges of life, but it doesn’t do much for global disaster detection”.

TikTok for physics: influencers aim to spark interest in science

A 2021 review 2 in Social Media + Society , co-authored by Proferes, chronicled 727 manuscripts published between 2010 and 2020, that made use of Reddit data. These studies spanned all sorts of disciplines — from computer science to medicine to social science.

One reason that Reddit is ripe for research is that there are few bureaucratic hurdles to clear compared with what’s required for other studies involving human beings. “It is a publicly accessible web forum in the US and so is not considered to be human-subjects research,” says Proferes. Institutional review boards view Reddit research as “exempt from ethical review”, he says.

However, Proferes and his co-authors emphasize the need for intentionality and sensitivity when collecting data from the site. Consider a subreddit such as r/opiates. Data on substance use are often difficult to procure from in-person interviews or other social science methods, but because of Reddit’s anonymity, people are more open to sharing such information on the platform. However, using the subreddit for research could be seen as invasive by a community that considers itself a semi-private anonymous support network. Certain communities on Reddit are also wary of scientific researchers.

The 2024 review co-authored by Proferes 1 lists some of these considerations and suggests steps such as obfuscating usernames in published work and collaborating with moderators.

“Academia and data populations have a very sore history of, frankly, academics coming in and just taking,” says Proferes. The online community “is not getting any benefit whatsoever. It is very exploitative. There’s some real historical reasons, too, why folks may be highly suspicious or dubious about researchers coming in, even in these digital spaces.”

Research findings derived from Reddit posts should be shared with users, says Sarah Gilbert. Credit: Steven Shea

“It’s really easy when you’re working with these large data sets to just think of the data points in them as literal data,” says Sarah Gilbert, research director of the Citizens and Technology Lab at Cornell University in Ithaca, New York, and a co-author of the review. “Spending time in the community and learning the norms and actually reading it, it turns that data into people. It gives a better sense of who is going to be included, more like human-subject research.”

Gilbert also recommends sharing whatever published research comes out of trawling through Reddit data with those who provided the information. “Hopefully what you learnt is beneficial to the community so they can see data is used for something,” she says.

Connecting with non-scientists

Reddit can be a way for scientists to use their expertise to answer any questions the general public might have, says Cendes. She is a regular on r/space, educating users about topics such as the James Webb Space Telescope.

Kelly Zimmerman, a PhD candidate in ecology at Montclair State University in New Jersey, has connected with and educated other users on Reddit. When she started on the platform about 12 years ago, she mostly used it to find journal articles of interest on r/ecology and r/biology. But, like Cendes, she noticed how curious users were about scientific topics that were in her area of expertise, and she now often engages in discussions on subreddits such as r/whatisthisbug.

Thousands of scientists are cutting back on Twitter, seeding angst and uncertainty

Although she previously used X, Zimmerman thinks that Reddit provides a more engaging experience. “I felt like I was just talking into a void — there wasn’t a lot of response on Twitter,” she says.

One way for scientists to try their hand at science communication on Reddit is through ‘ask me anything’ (AMA) sessions, in which researchers answer users’ questions in their own time. Moderators pull in verified researchers to provide responses — even renowned theoretical physicist Stephen Hawking participated. (To schedule an AMA with r/askscience, you can e-mail the moderators.)

With both AMAs and general discussion forums, there is an art to making sure that information is communicated effectively and succinctly. “We’re trying to keep it as scientific as possible, but in layman’s terms, so that non-scientists can understand cutting-edge science that’s coming out right now,” says Zimmerman, who also moderates some science subreddits.

Nathan Allen, a synthetic chemist based in Milwaukee, Wisconsin, and a former moderator at r/science, likens it to writing a persuasive e-mail. “On Reddit, you have got to convince the general public that this has some general interest to them, and you’ve got to develop it and build the message and make sure people stay on point,” he says. “You get a lot of practice writing concise explanations of complicated things that people who aren’t necessarily scientists are able to digest and understand.”

When using Reddit in any capacity, Zimmerman encourages scientists to make sure to read the rules before making a post or comment, and to mind their manners, just as they would on any other social-media platform. “Be polite,” she says. “Just because you’re an anonymous username doesn’t mean you should be rude to other people.”

Jennifer Cole, a biologist and anthropologist at Royal Holloway University of London, notes that using Reddit for scientific communication is not without its problems. Moderators do a lot of work behind the scenes and often face a torrent of abuse for trying to maintain standards, says Cole. And although using people’s real names can help with credibility, it can also make academics and experts targets for harassment and abuse. Although the site does not provide support for users who experience abuse, a spokesperson for Reddit noted that the platform has policies to prohibit both harassment and the sharing of personal or confidential information, and that these policies are enforced by the internal safety teams.

It can also be used to spread falsehoods. R/conspiracy has repeatedly posted misinformation about COVID-19 and vaccines. Climate deniers are also present on the platform, although a decade ago the science forum specifically banned climate change deniers. Asked about misinformation, the Reddit spokesperson said that because Reddit is governed by upvotes and downvotes, quality and accurate information tend to rise to the top.

Interviewees agree that Reddit is at its core a social media platform, and social media has the potential to be toxic. But when scientists engage, there’s also a lot of great scientific communication and debunking of misinformation. “Don’t be afraid to talk to the people,” Zimmerman says. Those “who are not scientists are just as curious as we are. There’s nothing special about being a scientist. We are like everybody else, and sometimes folks forget that.”

Nature 628 , 221-223 (2024)

doi: https://doi.org/10.1038/d41586-024-00906-y

Fiesler, C., Zimmer, M., Proferes, N., Gilbert, S. & Jones, N. Proc. ACM Hum. Comp. Interact. 8 , 5 (2024).

Article   Google Scholar  

Proferes, N., Jones, N., Gilbert, S., Fiesler, C. & Zimmer, M. Soc. Media Soc . https://doi.org/10.1177/20563051211019004 (2021).

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APJ Abdul Kalam Essay for Students and Children

500+ words apj abdul kalam essay.

Dr. APJ Abdul Kalam is a famous name in the whole world. He is counted among the greatest scientists of the 21st century. Even more, he becomes the 11th president of India and served his country. He was the most valued person of the country as his contribution as a scientist and as a president is beyond compare. Apart from that, his contribution to the ISRO (Indian Space Research Organization) is remarkable. He headed many projects that contributed to the society also he was the one who helped in the development of Agni and Prithvi missiles. For his involvement in the Nuclear power in India, he was known as “Missile Man of India”. And due to his contribution to the country, the government awarded him with the highest civilian award.

Career and Contribution of APJ Abdul Kalam

APJ Abdul Kalam was born in Tamil Nadu. At that time the financial condition of his family was poor so from an early age he started supporting his family financially. But he never gave up education. Along with supporting his family he continued his studies and completed graduation. Above all, he was a member of the Pokhran nuclear test conducted in 1998.

There is a countless contribution of Dr.APJ Abdul Kalam to the country but he was most famous for his greatest contribution that is the development of missiles that goes by the name Agni and Prithvi.

Source: sivadigitalart

Presidency Period

The great missile man becomes the President of India in 2002. During his presidency period, the army and country achieved many milestones that contributed a lot to the nation. He served the nation with an open heart that’s why he was called ‘people’s president’. But at the end of his term period, he was not satisfied with his work that’s why he wanted to be the President a second time but later on forfeited his name.

Post-presidency Period

After leaving the presidential office at the end of his term Dr. APJ Abdul Kalam again turn to his old passion which is teaching students. He worked for many renowned and prestigious institute of India located across the country. Above all, according to his the youth of the country is very talented but need the opportunity to prove their worth that’s why he supported them in their every good deed.

Get the huge list of more than 500 Essay Topics and Ideas

Awards and Honors

During his lifetime Dr. APJ Abdul Kalam was not only awarded and honored by Indian organization and committees but also by many international organizations and committees.

Writings and Character

During his lifetime, Dr. APJ Abdul Kalam wrote many books but his most notable work was ‘India 2020’ which have an action plan to make India a superpower.

Dr. APJ Abdul Kalam was a man of simplicity and integrity. He was so busy at work that he rises up early in the morning and work till late hours after midnight.

Death of APJ Abdul Kalam

He died during delivering a lecture to students in Shillong by sudden cardiac arrest in 2015. He was an outstanding scientist and a pioneer engineer who served his entire life for the nation and died while serving it. The man had the vision to make India a great country. And according to his the youth are the real assets of the country that’s why we should inspire and motivate them.

Essay Topics on Famous Leaders

• Mahatma Gandhi
• APJ Abdul Kalam
• Jawaharlal Nehru
• Swami Vivekananda
• Mother Teresa
• Rabindranath Tagore
• Sardar Vallabhbhai Patel
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The Widest-Ever Global Coral Crisis Will Hit Within Weeks, Scientists Say

Rising sea temperatures around the planet have caused a bleaching event that is expected to be the most extensive on record.

By Catrin Einhorn

The world’s coral reefs are in the throes of a global bleaching event caused by extraordinary ocean temperatures, the National Oceanic and Atmospheric Administration and international partners announced Monday.

It is the fourth such global event on record and is expected to affect more reefs than any other. Bleaching occurs when corals become so stressed that they lose the symbiotic algae they need to survive. Bleached corals can recover, but if the water surrounding them is too hot for too long, they die.

Coral reefs are vital ecosystems: limestone cradles of marine life that nurture an estimated quarter of ocean species at some point during their life cycles, support fish that provide protein for millions of people and protect coasts from storms. The economic value of the world’s coral reefs has been estimated at $2.7 trillion annually .

For the last year, ocean temperatures have been off the charts .

“This is scary, because coral reefs are so important,” said Derek Manzello, the coordinator of NOAA’s Coral Reef Watch program, which monitors and predicts bleaching events.

The news is the latest example of climate scientists’ alarming predictions coming to pass as the planet heats. Despite decades of warnings from scientists and pledges from leaders, nations are burning more fossil fuels than ever and greenhouse gas emissions continue to rise .

Substantial coral death has been confirmed around Florida and the Caribbean, particularly among staghorn and elk horn species, but scientists say it’s too soon to estimate what the extent of global mortality will be.

To determine a global bleaching event, NOAA and the group of global partners, the International Coral Reef Initiative, use a combination of sea surface temperatures and evidence from reefs. By their criteria, all three ocean basins that host coral reefs — the Pacific, Indian and Atlantic — must experience bleaching within 365 days, and at least 12 percent of the reefs in each basin must be subjected to temperatures that cause bleaching.

Currently, more than 54 percent of the world’s coral area has experienced bleaching-level heat stress in the past year, and that number is increasing by about 1 percent per week, Dr. Manzello said.

He added that within a week or two, “this event is likely to be the most spatially extensive global bleaching event on record.”

Each of the three previous global bleaching events has been worse than the last. During the first, in 1998, 20 percent of the world’s reef areas suffered bleaching-level heat stress. In 2010, it was 35 percent. The third spanned 2014 to 2017 and affected 56 percent of reefs.

The current event is expected to be shorter-lived, Dr. Manzello said, because El Niño, a natural climate pattern associated with warmer oceans, is weakening and forecasters predict a cooler La Niña period to take hold by the end of the year.

Bleaching has been confirmed in 54 countries, territories and local economies, as far apart as Florida , Saudi Arabia and Fiji. The Great Barrier Reef in Australia is suffering what appears to be its most severe bleaching event; about a third of the reefs surveyed by air showed prevalence of very high or extreme bleaching, and at least three quarters showed some bleaching.

“I do get depressed sometimes, because the feeling is like, ‘My God, this is happening,’” said Ove Hoegh-Guldberg, a professor of marine studies at the University of Queensland who published early predictions about how global warming would be catastrophic for coral reefs.

“Now we’re at the point where we’re in the disaster movie,” he said.

The most recent confirmation of widespread bleaching, prompting Monday’s announcement, came from the Western Indian Ocean, including Tanzania, Kenya, Mauritius, Seychelles and off the western coast of Indonesia.

Swaleh Aboud, a coral reef scientist at CORDIO East Africa, a research and conservation nonprofit group based in Kenya and focused on the Indian Ocean, said coral species that are known to be thermally resistant are bleaching, as are reefs in a cooler area considered to be a climate refuge.

Recently he visited a fishing community in Kenya called Kuruwitu that has worked to revive its reef. Many of the restored coral colonies had turned ghostly white. Others were pale, apparently on their way.

“Urgent global action is necessary to reduce future bleaching events, primarily driven by carbon emissions,” Mr. Aboud said.

Scientists are still learning about corals’ ability to adapt to climate change. Efforts are underway to breed coral that tolerate higher temperatures. In a few places, including Australia and Japan, coral appear to be migrating poleward, beginning to occupy new places. But scientists say a variety of factors, such as how much light penetrates the water and the topography of the sea floor, make such migration limited or unlikely in much of the world. Plus there’s the problem of ocean acidification; as seawater absorbs carbon dioxide from the atmosphere, it becomes more acidic, making it harder for coral to build and maintain reefs.

Dr. Hoegh-Guldberg, who has studied the impact of climate change on coral reefs for more than three decades, was an author of a 2018 report from the Intergovernmental Panel on Climate Change that found the world would lose the vast majority of its coral reefs at 1.5 degrees Celsius of warming, and virtually all at 2 degrees. Current pledges by nations put the Earth on track for about 2.5 degrees by 2100. Still, he has not lost hope.

“I think we will solve the problem if we get up and fight to solve the problem,” Dr. Hoegh-Guldberg said. “If we continue to pay lip service but not get on with the solutions, then we’re kidding ourselves.”

Catrin Einhorn covers biodiversity, climate and the environment for The Times. More about Catrin Einhorn

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What biologists see from the shores of the drying Great Salt Lake

Kirk Siegler

Scientists Carly Biedul, Bonnie Baxter and Heidi Hoven look for migratory birds on the eerily dry south shore of the Great Salt Lake in Utah. Lindsay D'Addato for NPR hide caption

Scientists Carly Biedul, Bonnie Baxter and Heidi Hoven look for migratory birds on the eerily dry south shore of the Great Salt Lake in Utah.

SALT LAKE CITY, Utah — Drive west of this sprawling high desert city, past its newly built international airport, through a series of locked gates into the Audubon's Gillmor Sanctuary and it's like entering another world.

Or maybe better put, an other worldly landscape: the vast, and drying wetlands along the Great Salt Lake, the largest saline lake left in the western hemisphere, some fifty miles long and thirty wide.

"It's quite an adventure to get out here," says Carly Biedul, a wildlife biologist at nearby Westminster University. She's part of a team of scientists who have been tracking the lake's decline amid the West's record megadrought made worse by climate change. They've been conducting weekly trips to various sampling and study sites for the last several years at the remote lake that only recently started making international headlines due to its sharp decline.

Even since its water levels peaked in the 1980s, the Great Salt Lake has always had this mysterious vibe. It's shallow and boggy. It can stink, especially in the heat of summer.

But zero in right here at this private sanctuary - where steady water still flows in due to a complex web of agreements - and it soon becomes clear how alive this ecosystem can be and how hugely important of a stopover it is for migratory birds.

Wetlands ecologist Heidi Hoven looks for shorebirds at the Gillmor Sanctuary, which she helps manage. Lindsay D'Addato for NPR hide caption

Wetlands ecologist Heidi Hoven looks for shorebirds at the Gillmor Sanctuary, which she helps manage.

Water diversions by farmers and Utah's booming population are seen as some of the biggest culprits behind the Great Salt Lake's decline. Lindsay D'Addato for NPR hide caption

Water diversions by farmers and Utah's booming population are seen as some of the biggest culprits behind the Great Salt Lake's decline.

Despite recent moisture, the lake is still shrinking

2023 brought record snow to Utah, and a healthy spillover of runoff into the imperiled lake. Scientists warn the lake has already shrunk nearly in half from its historical average.

"It's because of so many years of drought and climate change and water diversions, and we can't keep going like that," says Bonnie Baxter, director of the Great Salt Lake Institute.

But she says there's still time to reverse its decline. The last two years has bought the state some time. Researchers here are already detecting sharp declines in shorebird populations such as burrowing owls and snowy plovers. As the lake and its wetlands dry, the brine shrimp the birds feed on are dying out.

"For these birds that queue into these saline habitats, there are fewer places for them to go," says Heidi Hoven, a wetlands ecologist who helps manage the Gillmor. "All the saline lakes here in the West, and many in the world, are experiencing this loss of water and in essence that relates to a loss in habitat."

Left: the Great Salt Lake is an important stopover for scores of migratory shorebirds. Right: as the lake dries, predators like coyotes are appearing in areas that used to be underwater. Lindsay D'Addato for NPR hide caption

There are plenty of culprits behind the lake drying up

Scientists say the West is believed to be as dry as it's been in 1200 years. The megadrought made worse by climate change has been contributing to the Great Salt Lake's decline. But agriculture usually bears the bulk of the blame. Upstream water diversions for expanding alfalfa farms and dairies has meant less and less flows into the lake. Utah's population is also booming. Hoven says development is now running right up to the sanctuary.

"You can actually see it over your shoulder," she gestures. "It's this advancement of large, distribution warehouses that are within a mile from the sanctuary now where it used to be open land."

A short, bumpy ride later along a rutted out dirt track, Hoven pulls to a stop at a favorite vista. The setting sun is casting an eerie orange glow over the distant mountains that ring the dry lake bed. It stretches for miles with just a few pools of water here or there.

Scientists Heidi Hoven, Senior Manager at the Gillmor Sanctuary and Audubon Rockies and Bonnie Baxter, Director at The Great Salt Lake Institute, look for small flies at a bird sanctuary where many species of birds are affected by the recession of The Great Salt Lake. Lindsay D'Addato for NPR hide caption

Scientists Heidi Hoven, Senior Manager at the Gillmor Sanctuary and Audubon Rockies and Bonnie Baxter, Director at The Great Salt Lake Institute, look for small flies at a bird sanctuary where many species of birds are affected by the recession of The Great Salt Lake.

Wetlands ecologist Heidi Hoven looks for small flies at a bird sanctuary where many species are in decline due to the alarming drying of the Great Salt Lake. Lindsay D'Addato for NPR hide caption

Wetlands ecologist Heidi Hoven looks for small flies at a bird sanctuary where many species are in decline due to the alarming drying of the Great Salt Lake.

It's beautiful but also eerie, even for the trained eye of wildlife biologists like Biedul, who make weekly research trips to the lake.

"Otherworldly is a great word," she says. "It's crazy. We're at Great Salt Lake right now but there's no water. The other places where I go and sample there's water there at least. But here we're still at the lake and it's dry."

Hoven chimes in, solemnly.

"It's just so shocking, and you know, it's a shock to me every time I see it," she says. "But to see someone view it for the first time. You can really see them taking it in. You never thought you could see this dryness."

The state is being galvanized into action

But all this shock and alarm, the scientists say, may be good. It's pressuring state leaders into action. Utah Governor Spencer Cox has pledged the lake won't dry up on his watch. The state legislature has put upwards of a billion dollars lately into water conservation programs, most geared to farmers.

"For generations the lake was seen as kind of this dead thing that just happens to be there and will always be there," Cox told NPR recently. "And now that people are realizing there's a potential that it might not always be here, that's gotten people's attention in a positive way."

Wildlife biologist Carly Biedul of the Great Salt Lake Institute closes the last of many gates to the protected Gillmor Sanctuary along the south shores of the Great Salt Lake. Lindsay D'Addato for NPR hide caption

Wildlife biologist Carly Biedul of the Great Salt Lake Institute closes the last of many gates to the protected Gillmor Sanctuary along the south shores of the Great Salt Lake.

Everything from lake effect snow for the lucrative ski industry, to mining, to air quality depends on the lake's survival. Recent publicity around the crisis has raised public awareness but also started to bring more money which could lead to more comprehensive research that could inform everything from strategic action plans to save the lake to just understanding how the remaining migratory birds are coping.

Heidi Hoven, the wetlands ecologist, sees the shorebirds as a key indicator species.

"We have so much more to understand about what their needs are," she says. "In these changing times, it's really highlighting the need to understand these things quickly."

The scientists say the last two winters may have bought Utah a little time, but no one in the West is counting on another good snow year next year.

• Great Salt Lake
• migratory birds

8 of the best looks at the 'Oscars of Science,' where tech execs like Elon Musk mingled with Kim Kardashian and other stars

• The Breakthrough Prize Awards were hosted in Los Angeles on Saturday. 
• Nicknamed the "Oscars of Science," the ceremony brought together an array of famous faces. 
• From Kim Kardashian to Elon Musk, here's a look at eight of the best-dressed attendees. 

The Breakthrough Prize Awards, dubbed the "Oscars of Science," took place in Los Angeles on Saturday.

The annual awards ceremony, cofounded by the likes of Mark Zuckerberg , Sergey Brin, and Anne Wojcicki in 2012, celebrates the achievements of renowned scientists worldwide and gives them the opportunity to take home cash prizes of up to $3 million.

Winners at the 2024 event included Carl H. June , who developed an immunotherapy treatment where patients' "T cells are modified to target and kill cancer cells," according to his bio on the Breakthrough Prize Awards website.

The awards ceremony is also an excuse for the greatest minds in tech and science to mingle with Hollywood's elite. This year, stars like Kim Kardashian and Alicia Keys walked the red carpet alongside Elon Musk and Bill Gates.

Here's a look at the best looks attendees wore.

Elon Musk looked dapper in a classic tuxedo, complete with a bow tie.

Musk kept his red-carpet style classic for the Breakthrough Prize Awards, sporting a black tuxedo suit with a white button-up and coordinating black bow tie.

While he opted for a traditional look, his comments on the red carpet certainly made a splash. Variety shared a clip of Musk laughing after a reporter asked him who he thinks will win the presidential race in 2024, to which he responded: "Who do you think will win the White House in 2032? Which type of AI?"

Alicia Keys wore a Grecian-inspired golden dress.

The singer wore an asymmetrical gold dress with a cape-like design by Ralph Lauren. She paired the dress with coordinating gold heels and jewelry designed by Cartier.

Keeping with the Grecian-inspired look of her gown, Keys styled her hair in a slick updo with a braid that framed her head.

Anne Wojcicki sparkled in a semi-sheer gown.

The Breakthrough Prize Awards cofounder paired a boxy metallic clutch with her semi-sheer gown featuring intricate sparkling embellishments.

Wojcicki, the CEO and cofounder of 23andMe, completed her look with silver hoop earrings and kept her hair styled in a loose updo.

Bill Gates and Paula Hurd coordinated in black ensembles.

Gates and Hurd , who confirmed they were dating in 2023, arrived on the red carpet in coordinated outfits.

The Microsoft cofounder wore a classic black suit and bow tie. Meanwhile, Hurd, who was married to the former Oracle CEO Mark Hurd until he died in 2019, wore a black halter-neck dress with feather detailing around the lower half.

She added a touch of sparkle with a white pearl necklace and earrings.

Kim Kardashian sported a sultry halter dress that was custom-made for the billionaire.

Alaïa created the white gown, which wrapped around her neck to form a triangle-shaped cutout above the chest.

The dress also had thin slits at the waist and a form-fitting skirt that opened in the back to reveal her platform heels. Kardashian completed the outfit with smoky eye makeup, glossy lips, and hair styled to look wet.

Michelle Yeoh looked classic in a white suit and sparkling accessories.

Tom Ford designed her two-piece outfit, which included a double-breasted blazer and perfectly tailored trousers.

But it was her assortment of accessories that stole the show. Yeoh donned silver pumps, a diamond cuff on one wrist, a matching brooch pinned to her lapel, and a crystal Balenciaga purse that retails for $6,850 .

Olivia Wilde took a daring approach to her red-carpet outfit.

She wore a black Galvan London dress that looked simple from the front, featuring long sleeves, a high neckline, and a floor-length skirt.

But when Wilde turned to the side, you could see a wide waist cutout across the gown and an adjacent thigh-high slit.

A long strip of white fabric was tied in the middle of the two skin-baring sections, adding a bright pop to the dress that strategically covered her hips. An all-black version of the dress retails for $1,195 on luxury fashion sites.

Venus Williams stood out in bubblegum pink.

She arrived wearing a custom Prada gown featuring a straight skirt, sleeveless bodice, and sparkling straps.

The dress was simple and chic and was styled perfectly with minimal accessories. Williams added only stud earrings, a silver clutch, and black sandals.

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Drew carey explains at writers guild awards why he covered meals for striking scribes: “everybody in this room makes some actor a million”, ‘lessons in chemistry’ star brie larson on the “great challenge” of translating science & potential for season 2 – contenders tv.

By Addie Morfoot

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Lessons in Chemistry  star and executive producer Brie Larson , showrunner and executive producer Lee Eisenberg , and show’s co-stars Lewis Pullman and Aja Naomi King were at Deadline’s Contenders TV event Sunday to discuss the Apple TV+ limited drama series and the potential for a second season.

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“It was the best working experience I’ve ever had, so selfishly, I want to keep working with them for as long as I can,” Eisenberg said. “If it’s  Lessons in Chemistry  season 2, then great. And if it’s something else, great. But it really felt like we reached the end of the story. We have no plans for a season 2.”

Larson, who signed on to star and executive produced the series in 2021, doubled down on the drama’s conclusion.

“We finished the book,” she said.

RELATED:  Contenders TV – Deadline’s Full Coverage

After reading the novel, published in March 2022, Eisenberg said he became “completely obsessed.” The showrunner reached out to Apple and asked if there were any job openings on the series.

“In very short order, I was on a Zoom call with Brie, and then we were just off to the races,” he said. 

Larson said that mastering the language of chemistry and conveying it on screen in layman’s terms was a “great challenge.”

The actress said that initially, she found it difficult to relate to Elizabeth.

“From time to time, I would think she is so different from me,” Larson said. “She’s a scientist. I could never be like that. But then, as time goes on, you are like, oh, her process is very similar to mine, and (chemistry) is a creative field. It’s just translated in a way that’s beyond. Being her was an absolute delight and pleasure, and I just never wanted it to end.”

Check out the panel video above.

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