What is Conservation of energy: Definition and 1000 Discussions

In physics and chemistry, the law of conservation of energy states that the total energy of an isolated system remains constant; it is said to be conserved over time. This law, first proposed and tested by Émilie du Châtelet, means that energy can neither be created nor destroyed; rather, it can only be transformed or transferred from one form to another. For instance, chemical energy is converted to kinetic energy when a stick of dynamite explodes. If one adds up all forms of energy that were released in the explosion, such as the kinetic energy and potential energy of the pieces, as well as heat and sound, one will get the exact decrease of chemical energy in the combustion of the dynamite. Classically, conservation of energy was distinct from conservation of mass; however, special relativity showed that mass is related to energy and vice versa by E = mc2, and science now takes the view that mass-energy as a whole is conserved. Theoretically, this implies that any object with mass can itself be converted to pure energy, and vice versa, though this is believed to be possible only under the most extreme of physical conditions, such as likely existed in the universe very shortly after the Big Bang or when black holes emit Hawking radiation.
Conservation of energy can be rigorously proven by Noether's theorem as a consequence of continuous time translation symmetry; that is, from the fact that the laws of physics do not change over time.
A consequence of the law of conservation of energy is that a perpetual motion machine of the first kind cannot exist, that is to say, no system without an external energy supply can deliver an unlimited amount of energy to its surroundings. For systems which do not have time translation symmetry, it may not be possible to define conservation of energy. Examples include curved spacetimes in general relativity or time crystals in condensed matter physics.

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  1. O

    Question on conservation of energy

    The coefficient of friction between a 3 kg block resting on a flat table, is 0.400. A 5 kg mass is hanging off the table attached to the first mass by a lightweight rope on a frictionless pulley. The system starts at rest. What is the speed of the 5 kg ball when it has fallen 1.5 m...
  2. O

    What Angle Causes the Fishline to Break?

    Homework Statement A 2 kg ball is attached to the bottom end of a length of fishline with a breaking strength of 44.5 N. The top end of the fishline is held stationary. The ball is released from rest with the line taut and horizontal (theta = 90 degrees). At what angle theta (measured...
  3. I

    Conservation of Energy Problem

    Homework Statement Homework Equations ΔK1+ΔK2+ΔU1+ΔU2 = 0 The Attempt at a Solution The biggest stumbling block I have is setting up the initial and final conditions. First the initial: 1)Does m1 have potential energy in this setup? Part of me thinks it would have m1gh but I...
  4. K

    How Do You Calculate Kinetic and Potential Energy in Free Fall?

    Homework Statement A mass m = 2 is in free fall. The acceleration of gravity is g = 10. All numbers are in mks units. The position y(t) and velocity v(t) of the mass as a function of time t are y(t)=9−5t2 and v(t)=−10t. Find each of the energies (K,U,E) as a function of time t. Hint...
  5. J

    Physics Problem Conservation of Energy

    Homework Statement A 60.0 kg skier starts from rest at the top of a ski slope 60.0 m high. Homework Equations The Attempt at a Solution (a) If frictional forces do -10.5 kJ of work on her as she descends, how fast is she going at the bottom of the slope? This one I got correct...
  6. E

    Checking my work on a conservation of energy problem

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  7. E

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  8. T

    Umklapp Scattering & Conservation of Energy

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  9. R

    The importance of conservation of energy.

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  10. C

    Conservation Of Energy, Block Sliding Down Incline Onto Spring.

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  11. A

    Maximum Spring Elongation for a Block on a Horizontal Ideal Spring

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  12. T

    Conservation of energy in a circle arc.

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  13. B

    Conservation of Energy in Conjunction With Momentum

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  14. A

    Conservation of Energy of an Interrupted Pendulum

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  15. F

    Conservation of energy, (lack of) proof

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  16. T

    Conservation of Energy in General Relativity

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  17. Low-Q

    Question of conservation of energy in this thought experiment

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  18. PsychonautQQ

    GRE Conservation of Energy problem.

    Homework Statement http://grephysics.net/ans/9277/87 Can somebody explain to me why the electric potential = -K/2r^2? If you integrate Fdr and F = K/r^3, where does the 2 in the denominator come from?
  19. B

    Is an accelerating universe consistent with the conservation of energy

    Hi, Is the fact that the expansion of the universe accelerates consistent with the conservation of energy? If so, how? Grateful for response!
  20. J

    Rationale for Conservation of Energy

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  21. P

    How Do You Calculate the Linear Speed of a Yo-Yo Using Energy Conservation?

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  22. S

    Contradiction in Wave Amplitude, intensity and Conservation of Energy?

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  23. C

    Deriving Hamilton's Equations from Conservation of Energy

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  24. S

    Conservation of Energy of blocks and rope

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  25. B

    Why doesn't the rain violate the law of conservation of energy?

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  26. G

    Physics 12 law or conservation of energy

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  27. V

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  28. M

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  29. S

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  30. T

    Conservation of Energy from human physiology

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  31. A

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  32. K

    Conservation of energy and gravity

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  33. S

    Spring Problem with Possible Conservation of Energy Concept ?

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  34. T

    Does Dark Energy break the Conservation of Energy?

    As the expansion of space accelerates, space is created and this seems to break the conservation of energy law. I've googled this but have not found a really good explanation of this. Imagine for a moment we're so far into the future that there are vast vast voids between what remains of...
  35. C

    Conservation Of Energy With Friction

    Homework Statement Hi, I am having trouble with this problem. I'ld be very grateful if anyone could help me :) I've only done it with the conservation of energy way because I am not too sure how to go about it with the D'alembert principle. A Car with a mass of 100kg is pulled along a...
  36. Z

    Relativistic Kinematics conservation of energy

    Homework Statement A particle with rest mass m_{0} and kinetic energy 3m_{0}c^{2} makes a completely inelastic collision with a stationary particle of rest mass 2m_{0}. What are the velocity and rest mass of the composite particle? Homework Equations T = (\gamma - 1)m_{0}c^{2} = E -...
  37. C

    Applying the conservation of energy law to electrical circuits.

    Hi guys, I've realized that to truly, deeply, and fully understand something it often helps if you think about the conservation of energy, and then just build up from that. So here I have tried to explain why a battery has a voltage, and why there are voltage drops across resistances...
  38. MarkFL

    MHB Darshit P's question at Yahoo Answers regarding conservation of energy

    Here is the question: Here is a link to the question: I need help in physics!? - Yahoo! Answers I have posted a link there to this topic so the OP can find my response.
  39. W

    Is Maxwell's third law the proof of conservation of energy in E&M?

    Hello! When studying the law I noticed that the change in magnetic field (i.e the magnet's motion) is = to the EMF induced. That proofs to me how the principle of the conservation of energy is applied to the world of electromagnetism as well! The energy applied to move the magnet is...
  40. B

    Conservation of energy problem

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  41. M

    Energy - Cannon Ball and Conservation of Energy

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  42. D

    Conservation of energy (and rotational kinetic engery)

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  43. S

    Conservation of energy in general relativity & non-existence of PMMs

    Hi. I saw this: http://physics.stackexchange.com/questions/35431/is-the-law-of-conservation-of-energy-still-valid Now, if that's the case, then I wonder about a related question: can general relativity be used to create perpetual motion machines? If not, then why not (i.e. how does energy...
  44. N

    Conservation of Energy for satellite in an elliptic orbit

    Homework Statement A satellite is in an elliptic orbit around the Earth. Its speed at pedigree A is 8650 m/s. (a) Use conservation of energy to determine its speed at B. The radius of the Earth is 6380 km. Use conservation of energy to determine the speed at the apogee C. Homework...
  45. M

    Bowling balls rolling up a ramp (conservation of energy)

    This is from an old course I took. I'm not sure what I'm doing incorrectly. Homework Statement Two identical bowling balls are rolling on a horizontal floor without slipping. The initial speed of both balls is V = 9.9 m/s. Ball a encounters a frictionless ramp, reaching a maximum height...
  46. M

    Conservation of Energy: Comparison between momentum & magnetic fields

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  47. L

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  48. L

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  49. S

    Collision and conservation of energy

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  50. M

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    Homework Statement A 105 kg acrobat jumps up off a platform at a velocity of 2.50 m/s and lands on a teeter-totter 3.00 m below, where another acrobat is waiting. If the waiting acrobat has a mass of 62.5 kg, how high does she get? Homework Equations KE=(1/2)mv^2 PEg= mgh The...
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