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Disorganized overflowing chaotic sock drawer
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Entropy conceptual illustration
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Supernova explosion Image 4 of 4 Supercomputer simulation showing a supernova explosion 500 milliseconds (thousandths of a second) after core collap
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Supernova explosion Image 3 of 4 Supercomputer simulation showing a supernova explosion 300 milliseconds (thousandths of a second) after core collap
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Supernova explosion
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Supernova explosion
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Supernova explosion Supercomputer simulation of an 11-solar-mass star exploding as a supernova Temperature is represented by colours red for hot ri
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Supernova explosion Supercomputer simulation of a star 25 times more massive than the sun exploding into a supernova Colours represent temperature
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Half withered fruit (polyfollicle) of a southern magnolia plant (Magnolia grandiflora) by RICCARDO BIANCHINISCIENCE PHOTO LIBRARY
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Ludwig Boltzmann Portrait of Ludwig Eduard Boltz- mann (1844-1906) Austrian physicist Boltzmann obtained his doctorate in Vienna in 1866 and held
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Spin ice and magnetic monopoles illustration
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Spin ice and magnetic monopoles illustration
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Caricature of the Austrian physicist Ludwig Boltzmann (1844- 1906) Boltzmann extended the kinetic theory of gases and used the mechanics and statisti
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Broken plate
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Second law of thermodynamics equation This law states that the entropy (dS) of an isolated system not in equilibrium will tend to increase over time
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Second law of thermodynamics equation This law states that the entropy (dS) of an isolated system not in equilibrium will tend to increase over time
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Second law of thermodynamics equation This law states that the entropy (dS) of an isolated system not in equilibrium will tend to increase over time
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Second law of thermodynamics equation This law states that the entropy (dS) of an isolated system not in equilibrium will tend to increase over time
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Active Sun artwork
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The Austrian physicist Ludwig Eduard Boltzmann 1844-1906 Boltzmann obtained his doctorate in Vienna in 1866 and held professorships during his care
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Space-time conceptual illustration
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Space-time conceptual illustration
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Entropy shown by dissipation Entropy is a measure of the amount of order or disorder in a system as well as how reversible a change is This is illu
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Entropy shown by heat loss Entropy is a measure of the amount of order or disorder in a system as well as how reversible a change is This is illust
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Entropy shown by broken cup Entropy is a measure of the amount of order or disorder in a system as well as how reversible a change is This is illus
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Active Sun artwork The Sun is a huge ball of hydrogen gas ionised into a plasma by the immense temperatures that are generated by nuclear fusion at
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Supernova core 3D supercomputer model As a massive star exhausts the hydrogen and helium fusing at its core it loses the heat that prevents it coll
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Multidimensional surface conceptual illustration
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Molecular collisions
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Ludwig Boltzmann Historical portrait of the Austrian physicist Ludwig Eduard Boltzmann (1844- 1906) Boltzmann extended the kinetic theory of gases a
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Methane molecule
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Methane molecule
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Methane molecule
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Maxwells demon artwork
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Maxwells demon artwork This thought experiment was devised by the Scottish physicist James Clerk Maxwell (1831-1879) to question the Second Law of
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Maxwells demon artwork This thought experiment was devised by the Scottish physicist James Clerk Maxwell (1831-1879) to question the Second Law of
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Maxwells demon artwork This thought experiment was devised by the Scottish physicist James Clerk Maxwell (1831-1879) to question the Second Law of
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Boltzmanns equation asserts that entropy (S) can be measured in terms of the number of possible microstates of a given macrostate (an example of a mac
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Equation that expresses the second law of thermodynamics in terms of entropy The formula asserts that the entropy (S) of a closed system will always
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Portrait of the German physical chemist Hermann Walther Nernst 1864-1941 Nernst worked on the application of physics to chemical problems He gained
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Probability and randomness
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Quantum entanglement conceptual illustration
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Quantum entanglement conceptual illustration
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Multiverse conceptual illustration
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Multiverse conceptual illustration
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Quantum entanglement conceptual illustration
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Illustration of heat transfer methods using the example of water boiling in a kettle on a gas burner
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Illustration of heat transfer methods using the example of water boiling in a kettle on a gas burner
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Nanomicelles conceptual illustration
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Portrait of Rudolf Julius Emmanuel Clausius (1822- 1888) German physicist Clausius was primarily a theoretical physicist using mathematics rather t
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Nanomicelles conceptual illustration
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Black hole with hologram Conceptual illustration of a black hole whose event horizon is covered by a hologram containing the information of all the o
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Black hole with hologram Conceptual illustration of a black hole whose event horizon is covered by a hologram containing the information of all the o
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Black hole with hologram Conceptual illustration of a black hole whose event horizon is covered by a hologram containing the information of all the o
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Entropy Flows Upward
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Burnt-out and vandalised car abandoned in wooded area West Midlands UK
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Death of the universe conceptual image
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May be caused by land resettling after overuse of ground water for irrigaion
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Portrait of Rudolf Julius Emmanuel Clausius (1822- 1888) German physicist Clausius was primarily a theoretical physicist using mathematics rather t
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