Equations Collection

Scene in a lecture theatre, with chemical equations written on the blackboard, a woman giving a lecture, and students taking notes. circa 1940s

Part of manuscript written by Evariste Galois
Part of a manuscript written by the French mathematician Evariste Galois (1811-1832). Galois worked on the problem of finding general solutions for equations of degree n

Particle physics equations

Andrei Kolmogorov, Soviet mathematician
Andrei Kolmogorov (1903-1987), Soviet mathematician. Kolmogorov is widely considered one of the most prominent mathematicians of the 20th century

Particle physics equations

Mortar Calculations - Fort Wright - Fishers Island, New York
Directing the range of the Mortars - Fort Wright - Fishers Island - New York, USA. Military Cadets using complex higher mathematical formulae and telephone instructions to work out the exact aiming

Algebra, illustration from The Nine Chapters on the Mathematical Art
XEE3091080 Algebra, illustration from The Nine Chapters on the Mathematical Art, by JiC" zhung SuAnshu (ink on paper) by Chinese School; Private Collection; Stefano Bianchetti; Chinese

Formulae, Oxford, 1878 (print)
480622 Formulae, Oxford, 1878 (print) by Dodgson, Charles Lutwidge (Lewis Carroll) (1832-98); 21.8x14 cm; Private Collection; Photo eChristies Images; British, out of copyright

Professor Henry A. Rowland, 1897 (oil on canvas)
3949594 Professor Henry A. Rowland, 1897 (oil on canvas) by Eakins, Thomas Cowperthwait (1844-1916); 203.8x137.2 cm; Addison Gallery of American Art, Phillips Academy, Andover, MA

Beginning of Galoiss examination script for the Concours General
CHT163746 Beginning of Galoiss examination script for the Concours General, 1829 (pen & ink on paper) (b/w photo) by Galois, Evariste (1811-32); Bibliotheque Nationale, Paris

Sofia Kovalevskaya - Russian Mathematician
Sofia Vasilyevna Kovalevskaya (1850-1891) - Russian female mathematician, and also the first woman appointed to a full professorship in Europe in 1889. Date: circa 1889

Quantum particles. Quantum mechanics is a branch of physics that describes particles in terms of quanta, discrete values rather than smooth changes

Geometry equations, artwork C017 / 0793
Geometry equations. Computer artwork showing equations for determining the area and volume of a cylinder and its component shapes

Geometry equations, artwork C017 / 0789
Geometry equations. Computer artwork showing equations for determining the area and volume of a cylinder and its component shapes

Geometry equations, artwork C017 / 0791
Geometry equations. Computer artwork showing equations for determining the area and volume of a cylinder and its component shapes

Lissajous figure, artwork F005 / 2992
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2986
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2994
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2988
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2985
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2989
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2991
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2993
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2990
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Lissajous figure, artwork F005 / 2984
Computer artwork of a Lissajous figure or Bowditch curve, which is the graph of a system of parametric equations which describe complex harmonic motion

Harvey Allen, US aeronautical engineer C014 / 0566
Harvey Allen (1910-1977). Portrait of the US aeronautical engineer and director of NASAs Ames Research Center, Harry (Harvey) Julian Allen

Geometry equations, artwork C017 / 0790
Geometry equations. Computer artwork showing equations for determining the area and volume of a cylinder and its component shapes

Geometry equations, artwork C017 / 0797
Geometry equations. Computer artwork showing equations for determining the area and volume of a cone and its component shapes

Geometry equations, artwork C017 / 0796
Geometry equations. Computer artwork showing equations for determining the area and volume of a cone and its component shapes

Geometry equations, artwork C017 / 0792
Geometry equations. Computer artwork showing equations for determining the area and volume of a cylinder and its component shapes

Geometry equations, artwork C017 / 0794
Geometry equations. Computer artwork showing equations for determining the area and volume of a cylinder and its component shapes

British physicist Prof. Peter Higgs C015 / 4139
British theoretical physicist Professor Peter Higgs (b. 1929). In 1964, Higgs predicted the existence of a new type of fundamental particle, commonly called the Higgs boson

British physicist Prof. Peter Higgs C015 / 4134
British theoretical physicist Professor Peter Higgs (b. 1929). In 1964, Higgs predicted the existence of a new type of fundamental particle, commonly called the Higgs boson

Geometry equations, artwork C017 / 0795
Geometry equations. Computer artwork showing equations for determining the area and volume of a cone and its component shapes

Pharmaceutical laboratory C013 / 7234
Pharmaceutical laboratory. Scientist working in a pharmacy lab

Number blocks. Toy blocks depicting the numbers 1, 2 and 3. These blocks are used to teach young children and people with dyslexia how to solve mathematical problems

Vladimir Platonov, Soviet mathematician
Vladimir Petrovich Platonov (born 1939), Soviet mathematician. Platonov, a member of the Belarusian Academy of Sciences, was the Director of the Institute of Mathematics for that Academy from 1977 to

Gerolamo Cardano, Italian mathematician
Gerolamo Cardano (1501-1576), Italian mathematician and physician, coloured historical artwork. Gerolamo Cardano, also known as Jerome Cardan

Nikolai Bogolyubov, Soviet physicist
Nikolai Nikolaevich Bogolyubov (1909-1992), Soviet mathematician and physicist. Bogolyubov was born in Russia, and then educated in Kiev, the Ukraine

Nuclear research, conceptual artwork
Nuclear research. Conceptual artwork of a scientist observing an atomic explosion in a petri dish. This image can represent research into nuclear weapons

Animal intelligence, conceptual artwork

Particle tracks, equations and head
Particle tracks. Conceptual computer illustration depicting the increasing human understanding of particle physics as a head viewing subatomic part- icle tracks (orange)

Nuclear fusion reactions, computer artwork. These three reactions are being investigated for use in fusion power. Protons are red and neutrons blue

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Equations, the intricate language of the universe, have captivated brilliant minds throughout history. In a dusty corner of a library, I stumbled upon a manuscript written by Evariste Galois himself, revealing his profound insights into algebraic equations. As I delved deeper into its pages, I found myself transported to a lecture theatre buzzing with excitement as Andrei Kolmogorov unraveled the mysteries of particle physics equations. In this captivating scene, equations danced across the blackboard like particles colliding in an accelerator. The air crackled with intellectual energy as mathematicians and physicists absorbed every word uttered by Kolmogorov. It was here that groundbreaking discoveries were made and new frontiers in science were explored. But they can not confined to academic halls alone; they permeate every aspect of our lives. Even on Fishers Island in New York, amidst Fort Wright's mortar calculations, these mathematical expressions find their place. They serve as tools for architects and engineers to construct magnificent structures that stand tall against time's relentless march. Isaac Newton himself understood the power hidden within these symbols. With his laws of motion elegantly expressed through equations, he unlocked nature's secrets and forever changed our understanding of the world around us. Yet it is not only scientists who appreciate the beauty concealed within these mathematical formulas; artists too find inspiration in their symmetry and elegance. Spanish architect Benito Bails' masterpiece "Elementos de Matematica" showcases how they are be transformed into art forms themselves – an ode to both logic and creativity intertwined. From ancient manuscripts penned by visionaries like Galois to modern-day lectures on particle physics by Kolmogorov; from fortresses built using precise mortar calculations to Newton's revolutionary laws shaping our reality; from architects transforming mathematics into breathtaking designs – all bear testament to one undeniable truth: they can more than mere numbers on paper; they are gateways leading us towards enlightenment, unraveling the mysteries of the universe one symbol at a time.