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[Physics & Mathematics](https://www.livescience.com/physics-mathematics) 2. [Mathematics](https://www.livescience.com/physics-mathematics/mathematics) # The 11 most beautiful mathematical equations [Countdowns](https://www.livescience.com/countdowns) By [Clara Moskowitz](https://www.livescience.com/author/clara-moskowitz) published June 1, 2017 Live Science asked physicists, astronomers and mathematicians for their favorite equations. Here's what we found. When you purchase through links on our site, we may earn an affiliate commission. [Here’s how it works](https://www.livescience.com/about-live-science#section-affiliate-advertising-disclosure). 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Subscribe +  Once a month Watch This Space Sign up to our monthly entertainment newsletter to keep up with all our coverage of the latest sci-fi and space movies, tv shows, games and books. Subscribe +  Once a week Night Sky This Week Discover this week's must-see night sky events, moon phases, and stunning astrophotos. Sign up for our skywatching newsletter and explore the universe with us\! Subscribe + *** Join the club Get full access to premium articles, exclusive features and a growing list of member rewards. [Explore](https://www.livescience.com/membership) *** An account already exists for this email address, please log in. Subscribe to our newsletter  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-4136533771920753149&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) Mathematical equations aren't just useful — many are quite beautiful. And many scientists admit they are often fond of particular formulas not just for their function, but for their form, and the simple, poetic truths they contain. While certain famous equations, such as Albert Einstein's E = mc^2, hog most of the public glory, many less familiar formulas have their champions among scientists. LiveScience asked physicists, astronomers and mathematicians for their favorite equations; here's what we found. **Related:** [**What's the Universe Made Of? Math, Says Scientist**](https://www.livescience.com/42839-the-universe-is-math.html) Article continues below Latest Videos From Live Science You may like - [ Exotic prime numbers could be hiding inside black holes](https://www.livescience.com/space/black-holes/exotic-prime-numbers-could-be-hiding-inside-black-holes) - [ 'Proof by intimidation': AI is confidently solving 'impossible' math problems. But can it convince the world's top mathematicians?](https://www.livescience.com/physics-mathematics/mathematics/proof-by-intimidation-ai-is-confidently-solving-impossible-math-problems-but-can-it-convince-the-worlds-top-mathematicians) - [ 'Collective hum' of black holes could settle the debate over new physics](https://www.livescience.com/physics-mathematics/collective-hum-of-black-holes-could-mend-our-broken-understanding-of-the-universe-physicists-say) ## General relativity  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-5357735663809970745&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) The equation above was formulated by [Einstein](http://www.space.com/15524-albert-einstein.html) as part of his groundbreaking [general theory of relativity](http://www.space.com/17661-theory-general-relativity.html) in 1915. The theory revolutionized how scientists understood gravity by describing the force as a warping of the fabric of space and time. "It is still amazing to me that one such mathematical equation can describe what space-time is all about," said Space Telescope Science Institute astrophysicist Mario Livio, who nominated the equation as his favorite. "All of Einstein's true genius is embodied in this equation." \[[Einstein Quiz: Test Your Knowledge of the Genius](https://www.livescience.com/58245-theory-of-relativity-in-real-life.html)\] "The right-hand side of this equation describes the energy contents of our universe (including the 'dark energy' that propels the current cosmic acceleration)," Livio explained. "The left-hand side describes the geometry of space-time. The equality reflects the fact that in Einstein's general relativity, mass and energy determine the geometry, and concomitantly the curvature, which is a manifestation of what we call gravity." \[[6 Weird Facts About Gravity](https://www.livescience.com/14012-6-weird-facts-gravity.html)\] "It's a very elegant equation," said Kyle Cranmer, a physicist at New York University, adding that the equation reveals the relationship between space-time and matter and energy. "This equation tells you how they are related — how the presence of the sun warps space-time so that the Earth moves around it in orbit, etc. It also tells you how the universe evolved since [the Big Bang](http://www.space.com/52-the-expanding-universe-from-the-big-bang-to-today.html) and predicts that there should be black holes." Sign up for the Live Science daily newsletter now Get the world’s most fascinating discoveries delivered straight to your inbox. By signing up, you agree to our [Terms of services](https:\/\/futureplc.com\/terms-conditions\/) and acknowledge that you have read our [Privacy Notice](https:\/\/futureplc.com\/privacy-policy\/). You also agree to receive marketing emails from us that may include promotions from our trusted partners and sponsors, which you can unsubscribe from at any time. ## The Standard Model  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1197916609335481829&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) Another of physics' reigning theories, the [standard model](https://www.livescience.com/21024-particle-decays-standard-model-babar.html) describes the collection of fundamental particles currently thought to make up our universe. The theory can be encapsulated in a main equation called the standard model Lagrangian (named after the 18th-century French mathematician and astronomer Joseph Louis Lagrange), which was chosen by theoretical physicist Lance Dixon of the SLAC National Accelerator Laboratory in California as his favorite formula. "It has successfully described all elementary particles and forces that we've observed in the laboratory to date — except gravity," Dixon told LiveScience. "That includes, of course, the recently discovered Higgs(like) boson, phi in the formula. It is fully self-consistent with quantum mechanics and special relativity." What to read next - [ New tweak to Einstein's relativity could transform our understanding of the Big Bang](https://www.livescience.com/physics-mathematics/a-new-tweak-to-einsteins-relativity-could-transform-our-understanding-of-the-big-bang) - [ AI just verified a proof that earned one of math's most prestigious prizes. Math will never be the same](https://www.livescience.com/physics-mathematics/mathematics/ai-just-verified-a-proof-that-earned-one-of-maths-most-prestigious-prizes-math-will-never-be-the-same-opinion) - [ Physicists recreated the first millisecond after the Big Bang — and found it was surprisingly soupy](https://www.livescience.com/physics-mathematics/particle-physics/physicists-recreated-the-first-millisecond-after-the-big-bang-and-found-it-was-surprisingly-soupy) The standard model theory has not yet, however, been united with general relativity, which is why it cannot describe gravity. \[[Infographic: The Standard Model Explained](https://www.livescience.com/65427-fundamental-elementary-particles.html)\] ## Calculus  (Image credit: Shutterstock/[agsandrew](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-5556818541055363162&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-553555p1.html)) While the first two equations describe particular aspects of our universe, another favorite equation can be applied to all manner of situations. The fundamental theorem of calculus forms the backbone of the mathematical method known as calculus, and links its two main ideas, the concept of the integral and the concept of the derivative. "In simple words, \[it\] says that the net change of a smooth and continuous quantity, such as a distance travelled, over a given time interval (i.e. the difference in the values of the quantity at the end points of the time interval) is equal to the integral of the rate of change of that quantity, i.e. the integral of the velocity," said Melkana Brakalova-Trevithick, chair of the math department at Fordham University, who chose this equation as her favorite. "The fundamental theorem of calculus (FTC) allows us to determine the net change over an interval based on the rate of change over the entire interval." The seeds of calculus began in ancient times, but much of it was put together in the 17th century by [Isaac Newton](https://www.livescience.com/20296-isaac-newton.html), who used calculus to describe the motions of the planets around the sun. ## Pythagorean theorem  (Image credit: Shutterstock/ [igor.stevanovic](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-6807928085608143447&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-191161p1.html)) An "oldie but goodie" equation is the famous Pythagorean theorem, which every beginning geometry student learns. This formula describes how, for any right-angled triangle, the square of the length of the hypotenuse, *c*, (the longest side of a right triangle) equals the sum of the squares of the lengths of the other two sides (*a* and *b*). Thus, *a^2 + b^2 = c^2* "The very first mathematical fact that amazed me was Pythagorean theorem," said mathematician Daina Taimina of Cornell University. "I was a child then and it seemed to me so amazing that it works in geometry and it works with numbers!" \[[5 Seriously Mind-Boggling Math Facts](https://www.livescience.com/26584-5-mind-boggling-math-facts.html)\] ## 1 = 0.999999999….  (Image credit: Shutterstock/[Tursunbaev Ruslan](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-3543503940407058278&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-932203p1.html)) This simple equation, which states that the quantity 0.999, followed by an infinite string of nines, is equivalent to one, is the favorite of mathematician Steven Strogatz of Cornell University. "I love how simple it is — everyone understands what it says — yet how provocative it is," Strogatz said. "Many people don't believe it could be true. It's also beautifully balanced. The left side represents the beginning of mathematics; the right side represents the mysteries of infinity." ## Special relativity  (Image credit: Shutterstock/[optimarc](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1075966046141720495&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-120493p1.html)) Einstein makes the list again with his formulas for [special relativity](https://www.livescience.com/23789-einstein-relativity-faster-than-light-travel.html), which describes how time and space aren't absolute concepts, but rather are relative depending on the speed of the observer. The equation above shows how time dilates, or slows down, the faster a person is moving in any direction. "The point is it's really very simple," said Bill Murray, a particle physicist at the CERN laboratory in Geneva. "There is nothing there an A-level student cannot do, no complex derivatives and trace algebras. But what it embodies is a whole new way of looking at the world, a whole attitude to reality and our relationship to it. Suddenly, the rigid unchanging cosmos is swept away and replaced with a personal world, related to what you observe. You move from being outside the universe, looking down, to one of the components inside it. But the concepts and the maths can be grasped by anyone that wants to." Murray said he preferred the special relativity equations to the more complicated formulas in Einstein's later theory. "I could never follow the maths of general relativity," he said. ## Euler's equation  (Image credit: Shutterstock/[Jezper](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1038720725254854546&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-380674p1.html)) This simple formula encapsulates something pure about the nature of spheres: "It says that if you cut the surface of a sphere up into faces, edges and vertices, and let F be the number of faces, E the number of edges and V the number of vertices, you will always get V – E + F = 2," said Colin Adams, a mathematician at Williams College in Massachusetts. "So, for example, take a tetrahedron, consisting of four triangles, six edges and four vertices," Adams explained. "If you blew hard into a tetrahedron with flexible faces, you could round it off into a sphere, so in that sense, a sphere can be cut into four faces, six edges and four vertices. And we see that V – E + F = 2. Same holds for a pyramid with five faces — four triangular, and one square — eight edges and five vertices," and any other combination of faces, edges and vertices. "A very cool fact! The combinatorics of the vertices, edges and faces is capturing something very fundamental about the shape of a sphere," Adams said. ## Euler-Lagrange equations and Noether's theorem  (Image credit: Shutterstock/[Marc Pinter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1057660270463295874&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-156226p1.html)) "These are pretty abstract, but amazingly powerful," NYU's Cranmer said. "The cool thing is that this way of thinking about physics has survived some major revolutions in physics, like quantum mechanics, relativity, etc." Here, L stands for the Lagrangian, which is a measure of energy in a physical system, such as springs, or levers or fundamental particles. "Solving this equation tells you how the system will evolve with time," Cranmer said. A spinoff of the Lagrangian equation is called Noether's theorem, after the 20th century German mathematician Emmy Noether. "This theorem is really fundamental to physics and the role of symmetry," Cranmer said. "Informally, the theorem is that if your system has a [symmetry](http://www.space.com/18449-lhc-particle-decay-supersymmetry-physics.html), then there is a corresponding conservation law. For example, the idea that the fundamental laws of physics are the same today as tomorrow (time symmetry) implies that energy is conserved. The idea that the laws of physics are the same here as they are in outer space implies that momentum is conserved. Symmetry is perhaps the driving concept in fundamental physics, primarily due to \[Noether's\] contribution." ## The Callan-Symanzik equation  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-6954362329611900056&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) "The Callan-Symanzik equation is a vital first-principles equation from 1970, essential for describing how naive expectations will fail in a [quantum world](https://www.livescience.com/20753-quantum-physics-biology-life.html)," said theoretical physicist Matt Strassler of Rutgers University. The equation has numerous applications, including allowing physicists to estimate the mass and size of the proton and neutron, which make up the nuclei of atoms. Basic physics tells us that the gravitational force, and the electrical force, between two objects is proportional to the inverse of the distance between them squared. On a simple level, the same is true for the strong nuclear force that binds protons and neutrons together to form the nuclei of atoms, and that binds quarks together to form protons and neutrons. However, tiny quantum fluctuations can slightly alter a force's dependence on distance, which has dramatic consequences for the strong nuclear force. "It prevents this force from decreasing at long distances, and causes it to trap quarks and to combine them to form the protons and neutrons of our world," Strassler said. "What the Callan-Symanzik equation does is relate this dramatic and difficult-to-calculate effect, important when \[the distance\] is roughly the size of a proton, to more subtle but easier-to-calculate effects that can be measured when \[the distance\] is much smaller than a proton." ## The minimal surface equation  (Image credit: Shutterstock/[MarcelClemens](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1424891908936359040&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-598246p1.html)) "The minimal surface equation somehow encodes the [beautiful soap films](https://www.livescience.com/6562-bubble-bursted-science-bursting-bubbles.html) that form on wire boundaries when you dip them in soapy water," said mathematician Frank Morgan of Williams College. "The fact that the equation is 'nonlinear,' involving powers and products of derivatives, is the coded mathematical hint for the surprising behavior of soap films. This is in contrast with more familiar linear partial differential equations, such as the heat equation, the wave equation, and the Schrödinger equation of quantum physics." ## The Euler line  (Image credit: Patrick Ion/Mathematical Reviews/AMS) Glen Whitney, founder of the Museum of Math in New York, chose another geometrical theorem, this one having to do with the Euler line, named after 18th-century Swiss mathematician and physicist Leonhard Euler. "Start with any triangle," Whitney explained. "Draw the smallest circle that contains the triangle and find its center. Find the center of mass of the triangle — the point where the triangle, if cut out of a piece of paper, would balance on a pin. Draw the three altitudes of the triangle (the lines from each corner perpendicular to the opposite side), and find the point where they all meet. The theorem is that all three of the points you just found always lie on a single straight line, called the 'Euler line' of the triangle." Whitney said the theorem encapsulates the beauty and power of mathematics, which often reveals surprising patterns in simple, familiar shapes. *Follow Clara Moskowitz on Twitter [@ClaraMoskowitz](http://twitter.com/ClaraMoskowitz) or LiveScience [@livescience](http://twitter.com/#!/livescience). We're also on [Facebook](http://www.facebook.com/#!/livescience) & [Google+](https://plus.google.com/b/115527392301630827938/115527392301630827938).*  [Clara Moskowitz](https://www.livescience.com/author/clara-moskowitz) Social Links Navigation Clara has a bachelor's degree in astronomy and physics from Wesleyan University, and a graduate certificate in science writing from the University of California, Santa Cruz. She has written for both Space.com and Live Science. 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Math will never be the same") [ Particle Physics Physicists recreated the first millisecond after the Big Bang — and found it was surprisingly soupy](https://www.livescience.com/physics-mathematics/particle-physics/physicists-recreated-the-first-millisecond-after-the-big-bang-and-found-it-was-surprisingly-soupy "Physicists recreated the first millisecond after the Big Bang — and found it was surprisingly soupy") Latest in Mathematics [ Mathematics Pi has been calculated to trillions of digits ‪—‬ is that completely irrational?](https://www.livescience.com/physics-mathematics/mathematics/pi-has-been-calculated-to-trillions-of-digits-is-that-completely-irrational "Pi has been calculated to trillions of digits ‪—‬ is that completely irrational?") [ Mathematics AI just verified a proof that earned one of math's most prestigious prizes. Math will never be the same](https://www.livescience.com/physics-mathematics/mathematics/ai-just-verified-a-proof-that-earned-one-of-maths-most-prestigious-prizes-math-will-never-be-the-same-opinion "AI just verified a proof that earned one of math's most prestigious prizes. Math will never be the same") [ Mathematics 'Proof by intimidation': AI is confidently solving 'impossible' math problems. But can it convince the world's top mathematicians?](https://www.livescience.com/physics-mathematics/mathematics/proof-by-intimidation-ai-is-confidently-solving-impossible-math-problems-but-can-it-convince-the-worlds-top-mathematicians "'Proof by intimidation': AI is confidently solving 'impossible' math problems. But can it convince the world's top mathematicians?") [ Mathematics Science history: Sophie Germain, first woman to win France's prestigious 'Grand Mathematics Prize' is snubbed when tickets to award ceremony are 'lost in the mail' — Jan. 9, 1816](https://www.livescience.com/physics-mathematics/mathematics/science-history-sophie-germain-first-woman-to-win-frances-prestigious-grand-mathematics-prize-is-snubbed-when-tickets-to-award-ceremony-are-lost-in-the-mail-jan-9-1816 "Science history: Sophie Germain, first woman to win France's prestigious 'Grand Mathematics Prize' is snubbed when tickets to award ceremony are 'lost in the mail' — Jan. 9, 1816") [ Mathematics How many holes does the human body have?](https://www.livescience.com/physics-mathematics/mathematics/how-many-holes-does-the-human-body-have "How many holes does the human body have?") 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 (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-4136533771920753149&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) Mathematical equations aren't just useful — many are quite beautiful. And many scientists admit they are often fond of particular formulas not just for their function, but for their form, and the simple, poetic truths they contain. While certain famous equations, such as Albert Einstein's E = mc^2, hog most of the public glory, many less familiar formulas have their champions among scientists. LiveScience asked physicists, astronomers and mathematicians for their favorite equations; here's what we found. **Related:** [**What's the Universe Made Of? Math, Says Scientist**](https://www.livescience.com/42839-the-universe-is-math.html) Article continues below Latest Videos From Live Science ## General relativity  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-5357735663809970745&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) The equation above was formulated by [Einstein](http://www.space.com/15524-albert-einstein.html) as part of his groundbreaking [general theory of relativity](http://www.space.com/17661-theory-general-relativity.html) in 1915. The theory revolutionized how scientists understood gravity by describing the force as a warping of the fabric of space and time. "It is still amazing to me that one such mathematical equation can describe what space-time is all about," said Space Telescope Science Institute astrophysicist Mario Livio, who nominated the equation as his favorite. "All of Einstein's true genius is embodied in this equation." \[[Einstein Quiz: Test Your Knowledge of the Genius](https://www.livescience.com/58245-theory-of-relativity-in-real-life.html)\] "The right-hand side of this equation describes the energy contents of our universe (including the 'dark energy' that propels the current cosmic acceleration)," Livio explained. "The left-hand side describes the geometry of space-time. The equality reflects the fact that in Einstein's general relativity, mass and energy determine the geometry, and concomitantly the curvature, which is a manifestation of what we call gravity." \[[6 Weird Facts About Gravity](https://www.livescience.com/14012-6-weird-facts-gravity.html)\] "It's a very elegant equation," said Kyle Cranmer, a physicist at New York University, adding that the equation reveals the relationship between space-time and matter and energy. "This equation tells you how they are related — how the presence of the sun warps space-time so that the Earth moves around it in orbit, etc. It also tells you how the universe evolved since [the Big Bang](http://www.space.com/52-the-expanding-universe-from-the-big-bang-to-today.html) and predicts that there should be black holes." Get the world’s most fascinating discoveries delivered straight to your inbox. ## The Standard Model  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1197916609335481829&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) Another of physics' reigning theories, the [standard model](https://www.livescience.com/21024-particle-decays-standard-model-babar.html) describes the collection of fundamental particles currently thought to make up our universe. The theory can be encapsulated in a main equation called the standard model Lagrangian (named after the 18th-century French mathematician and astronomer Joseph Louis Lagrange), which was chosen by theoretical physicist Lance Dixon of the SLAC National Accelerator Laboratory in California as his favorite formula. "It has successfully described all elementary particles and forces that we've observed in the laboratory to date — except gravity," Dixon told LiveScience. "That includes, of course, the recently discovered Higgs(like) boson, phi in the formula. It is fully self-consistent with quantum mechanics and special relativity." The standard model theory has not yet, however, been united with general relativity, which is why it cannot describe gravity. \[[Infographic: The Standard Model Explained](https://www.livescience.com/65427-fundamental-elementary-particles.html)\] ## Calculus  (Image credit: Shutterstock/[agsandrew](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-5556818541055363162&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-553555p1.html)) While the first two equations describe particular aspects of our universe, another favorite equation can be applied to all manner of situations. The fundamental theorem of calculus forms the backbone of the mathematical method known as calculus, and links its two main ideas, the concept of the integral and the concept of the derivative. "In simple words, \[it\] says that the net change of a smooth and continuous quantity, such as a distance travelled, over a given time interval (i.e. the difference in the values of the quantity at the end points of the time interval) is equal to the integral of the rate of change of that quantity, i.e. the integral of the velocity," said Melkana Brakalova-Trevithick, chair of the math department at Fordham University, who chose this equation as her favorite. "The fundamental theorem of calculus (FTC) allows us to determine the net change over an interval based on the rate of change over the entire interval." The seeds of calculus began in ancient times, but much of it was put together in the 17th century by [Isaac Newton](https://www.livescience.com/20296-isaac-newton.html), who used calculus to describe the motions of the planets around the sun. ## Pythagorean theorem  (Image credit: Shutterstock/ [igor.stevanovic](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-6807928085608143447&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-191161p1.html)) An "oldie but goodie" equation is the famous Pythagorean theorem, which every beginning geometry student learns. This formula describes how, for any right-angled triangle, the square of the length of the hypotenuse, *c*, (the longest side of a right triangle) equals the sum of the squares of the lengths of the other two sides (*a* and *b*). Thus, *a^2 + b^2 = c^2* "The very first mathematical fact that amazed me was Pythagorean theorem," said mathematician Daina Taimina of Cornell University. "I was a child then and it seemed to me so amazing that it works in geometry and it works with numbers!" \[[5 Seriously Mind-Boggling Math Facts](https://www.livescience.com/26584-5-mind-boggling-math-facts.html)\] ## 1 = 0.999999999….  (Image credit: Shutterstock/[Tursunbaev Ruslan](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-3543503940407058278&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-932203p1.html)) This simple equation, which states that the quantity 0.999, followed by an infinite string of nines, is equivalent to one, is the favorite of mathematician Steven Strogatz of Cornell University. "I love how simple it is — everyone understands what it says — yet how provocative it is," Strogatz said. "Many people don't believe it could be true. It's also beautifully balanced. The left side represents the beginning of mathematics; the right side represents the mysteries of infinity." ## Special relativity  (Image credit: Shutterstock/[optimarc](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1075966046141720495&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-120493p1.html)) Einstein makes the list again with his formulas for [special relativity](https://www.livescience.com/23789-einstein-relativity-faster-than-light-travel.html), which describes how time and space aren't absolute concepts, but rather are relative depending on the speed of the observer. The equation above shows how time dilates, or slows down, the faster a person is moving in any direction. "The point is it's really very simple," said Bill Murray, a particle physicist at the CERN laboratory in Geneva. "There is nothing there an A-level student cannot do, no complex derivatives and trace algebras. But what it embodies is a whole new way of looking at the world, a whole attitude to reality and our relationship to it. Suddenly, the rigid unchanging cosmos is swept away and replaced with a personal world, related to what you observe. You move from being outside the universe, looking down, to one of the components inside it. But the concepts and the maths can be grasped by anyone that wants to." Murray said he preferred the special relativity equations to the more complicated formulas in Einstein's later theory. "I could never follow the maths of general relativity," he said. ## Euler's equation  (Image credit: Shutterstock/[Jezper](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1038720725254854546&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-380674p1.html)) This simple formula encapsulates something pure about the nature of spheres: "It says that if you cut the surface of a sphere up into faces, edges and vertices, and let F be the number of faces, E the number of edges and V the number of vertices, you will always get V – E + F = 2," said Colin Adams, a mathematician at Williams College in Massachusetts. "So, for example, take a tetrahedron, consisting of four triangles, six edges and four vertices," Adams explained. "If you blew hard into a tetrahedron with flexible faces, you could round it off into a sphere, so in that sense, a sphere can be cut into four faces, six edges and four vertices. And we see that V – E + F = 2. Same holds for a pyramid with five faces — four triangular, and one square — eight edges and five vertices," and any other combination of faces, edges and vertices. "A very cool fact! The combinatorics of the vertices, edges and faces is capturing something very fundamental about the shape of a sphere," Adams said. ## Euler-Lagrange equations and Noether's theorem  (Image credit: Shutterstock/[Marc Pinter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1057660270463295874&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-156226p1.html)) "These are pretty abstract, but amazingly powerful," NYU's Cranmer said. "The cool thing is that this way of thinking about physics has survived some major revolutions in physics, like quantum mechanics, relativity, etc." Here, L stands for the Lagrangian, which is a measure of energy in a physical system, such as springs, or levers or fundamental particles. "Solving this equation tells you how the system will evolve with time," Cranmer said. A spinoff of the Lagrangian equation is called Noether's theorem, after the 20th century German mathematician Emmy Noether. "This theorem is really fundamental to physics and the role of symmetry," Cranmer said. "Informally, the theorem is that if your system has a [symmetry](http://www.space.com/18449-lhc-particle-decay-supersymmetry-physics.html), then there is a corresponding conservation law. For example, the idea that the fundamental laws of physics are the same today as tomorrow (time symmetry) implies that energy is conserved. The idea that the laws of physics are the same here as they are in outer space implies that momentum is conserved. Symmetry is perhaps the driving concept in fundamental physics, primarily due to \[Noether's\] contribution." ## The Callan-Symanzik equation  (Image credit: Shutterstock/[R.T. Wohlstadter](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-6954362329611900056&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-177520p1.html)) "The Callan-Symanzik equation is a vital first-principles equation from 1970, essential for describing how naive expectations will fail in a [quantum world](https://www.livescience.com/20753-quantum-physics-biology-life.html)," said theoretical physicist Matt Strassler of Rutgers University. The equation has numerous applications, including allowing physicists to estimate the mass and size of the proton and neutron, which make up the nuclei of atoms. Basic physics tells us that the gravitational force, and the electrical force, between two objects is proportional to the inverse of the distance between them squared. On a simple level, the same is true for the strong nuclear force that binds protons and neutrons together to form the nuclei of atoms, and that binds quarks together to form protons and neutrons. However, tiny quantum fluctuations can slightly alter a force's dependence on distance, which has dramatic consequences for the strong nuclear force. "It prevents this force from decreasing at long distances, and causes it to trap quarks and to combine them to form the protons and neutrons of our world," Strassler said. "What the Callan-Symanzik equation does is relate this dramatic and difficult-to-calculate effect, important when \[the distance\] is roughly the size of a proton, to more subtle but easier-to-calculate effects that can be measured when \[the distance\] is much smaller than a proton." ## The minimal surface equation  (Image credit: Shutterstock/[MarcelClemens](https://shutterstock.7eer.net/c/221109/42119/1305?subId1=livescience-us-1424891908936359040&sharedId=livescience-us&u=http%3A%2F%2Fwww.shutterstock.com%2Fgallery-598246p1.html)) "The minimal surface equation somehow encodes the [beautiful soap films](https://www.livescience.com/6562-bubble-bursted-science-bursting-bubbles.html) that form on wire boundaries when you dip them in soapy water," said mathematician Frank Morgan of Williams College. "The fact that the equation is 'nonlinear,' involving powers and products of derivatives, is the coded mathematical hint for the surprising behavior of soap films. This is in contrast with more familiar linear partial differential equations, such as the heat equation, the wave equation, and the Schrödinger equation of quantum physics." ## The Euler line  (Image credit: Patrick Ion/Mathematical Reviews/AMS) Glen Whitney, founder of the Museum of Math in New York, chose another geometrical theorem, this one having to do with the Euler line, named after 18th-century Swiss mathematician and physicist Leonhard Euler. "Start with any triangle," Whitney explained. "Draw the smallest circle that contains the triangle and find its center. Find the center of mass of the triangle — the point where the triangle, if cut out of a piece of paper, would balance on a pin. Draw the three altitudes of the triangle (the lines from each corner perpendicular to the opposite side), and find the point where they all meet. The theorem is that all three of the points you just found always lie on a single straight line, called the 'Euler line' of the triangle." Whitney said the theorem encapsulates the beauty and power of mathematics, which often reveals surprising patterns in simple, familiar shapes. *Follow Clara Moskowitz on Twitter [@ClaraMoskowitz](http://twitter.com/ClaraMoskowitz) or LiveScience [@livescience](http://twitter.com/#!/livescience). We're also on [Facebook](http://www.facebook.com/#!/livescience) & [Google+](https://plus.google.com/b/115527392301630827938/115527392301630827938).* Clara has a bachelor's degree in astronomy and physics from Wesleyan University, and a graduate certificate in science writing from the University of California, Santa Cruz. She has written for both Space.com and Live Science.