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

    Conservation of Energy: Pulley and Springs

    Homework Statement Two blocks are connected with a massless, non-stretchable rope, and connected to a spring that is fixed to a wall. One of the blocks is hanging from the side of the table, while the other lies on the table. The mass of each block is m=1.0 kg, spring stiffness is k=50 N/m...
  2. B

    Energy/Work Problem: Friction of sliding down pole

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  3. Undacuva

    Underpinnings of conservation of energy/mass

    I understand the 1st law of thermodynamics developed as a generalization based on experimental observations, in that an exception has yet to be found in thousands of situations, so it is considered to hold true in all possible situations. If that is how it developed, is there any other theory or...
  4. J

    B Why does Fdt go away during collisions while Fdx does not?

    For collisions between particles, Fdt goes to zero while Fdx does not F = mdv/dt mv + Fdt = mv if you have two particles colliding mva + mvb +Fdt = mva'+mvb' in the above case, Fdt goes away as there are equal and opposite forces between the two particles during the collision, linear momentum is...
  5. Lunct

    B Can the law of conservation of energy of be broken?

    A consequence of Heisenberg's Uncertainty principle is that particles energy level can fluctuate their amount of energy, e, for a short amount of time, t, as long as e x t < h/4pi (where he is = to Planck's constant). So does that not violate the law of conservation of energy?
  6. Deadawake

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  7. PhysicsCollegeGirl

    Conservation of Energy -- Object around a loop

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  8. N

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  9. H

    Conservation of Energy for a roller coaster

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  10. T

    Calculating Velocity at the Bottom of a Quarter Circle Track

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  11. F

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  12. M

    Feynman explanation of gravitational energy

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  13. V

    Question about Maximum Entropy

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  14. H

    Collisions -- conceptual questions

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  15. John Morrell

    B Conservation of Energy and Expansion Redshift

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  16. WherE mE weeD

    Conservation of energy: Crane raising a mass

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  17. HarshK

    Finding the coefficient of friction

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  18. U

    Derive formula using Conservation of Energy and Momentum

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  19. Ron19932017

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  20. physicsdude101

    A pulley of mass m using conservation of energy

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  21. Supremetheking

    How Does the Angle Affect the Height and Speed of a Toy Car on a Track?

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  22. Low-Q

    Confusion about conservation of energy vs. momentum

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  23. RavenBlackwolf

    Conservation of Energy, Down an Incline with a Spring

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  24. Arman777

    Conservation of Energy Question

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  25. MiLara

    I Special Relativity's effect on density

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  26. J

    Elastic collision between pool balls

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  27. J

    Conservation of energy in refraction

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  28. K. Doc Holiday

    Conservation of energy across the universe

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  29. F

    Why is the final potential of spring (Usf) equal to zero in problem b?

    I'm having promblem with b. I checked the solution, but I did'nt understand the logic. Kf+Ugf+Usf = Ki+Ugi+Usi Usf= 0, Ki=0, Ugf= 0 I understand the logic's why they are equal to 0. I don't understand why final potential of spring (Usf) is equal to zero? ------------------ Now, I got...
  30. lippyka

    Man jumping into water: Conservation of Energy

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  31. N

    Conservation of Energy: Solving for Initial and Final Energy

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  32. N

    Conservation of energy hard problem.

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  33. Gopal Mailpalli

    When does the ball come to rest?

    Homework Statement A ball is dropped vertically from a height H on to a plane surface and permitted to bounce repeatedly along a vertical line. After every bounce, its kinetic energy becomes a quarter of its kinetic energy before the bounce. The ball will come to rest after time? Homework...
  34. D

    Finding height dropped from Force vs. Time graph

    Homework Statement A pumpkin was dropped from a balcony of a skyscraper. The pumpkin happened to land on a sidewalk force sensor and the below data was collected. The pumpkin weighs 2.7kg. a) From what height was the pumpkin dropped? b) From what floor of the skyscraper was the...
  35. J

    Conservation of Energy with heat

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  36. J

    Conservation of Energy With Friction

    Homework Statement A 10 kg initially at rest is pulled 13m across a floor by a 50N force. if friction does 380J of work over this distance, what is the block's final velocity? http://imgur.com/a/zM1MX Homework Equations W=Fd, Ek=1/2mv^2 The Attempt at a Solution Since the block was at...
  37. N

    Classical Mechanics: Retarding force on a satellite

    Homework Statement A spherical satellite of radius r is moving with velocity v through a uniform tenuous atmosphere of density ρ. Find the retarding force on the satellite if each particle which strikes it (a) adheres to the surface and (b) bounces off it elastically. I know the answer should...
  38. Kianlos

    Law of conservation of energy problem [reupload]

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  39. J

    Firework problem, conservation of energy?

    Homework Statement A firework is shot from the ground at a speed of 50 m/s and an angle of 45 degrees. At its highest point it blows up into two pieces due to internal forces. One piece (.25 mass) falls straight down to the ground below the explosion, where does the second piece land? Homework...
  40. minimario

    When is Energy/Momentum/Angular Momentum really conserved?

    Homework Statement So during collisions between 2 point masses, I know that momentum is always conserved, but energy may or may not be conserved. Now, in this case, where we have a block colliding with a pivoted rod, I know that angular momentum is always conserved, but neither energy or...
  41. L

    Conservation of Energy on a frictionless incline

    Homework Statement A 259 g textbook slides up a 22.1° incline that is 2.55 m long. Using conservation of energy and assuming the incline is frictionless, what minimum initial speed is needed to accomplish this? mass = 0.259 kg Θ = 22.1° length of incline = 2.55 m Homework Equations KE =...
  42. TheSodesa

    Escape Velocity of a Neutron Star: Relativistic Calculation

    Homework Statement Calculate the escape velocity on the surface of the neutron star in the previous problem (##m = \frac{2}{3} \cdot 2,1 \cdot M_{\odot}##; ##R = 15km##). Hint: Basic physics. Note, however, that the escape velocity is not going to be small when compared to the speed of light...
  43. N

    Accounting for Air Resistance in Conservation of Energy Lab with Bouncing Ball

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  44. D

    Solving a Midterm Physics Problem: Masses A & B with Springs

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  45. A

    Height in conservation of energy problem

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  46. donaldparida

    Conservative forces and conservation of mechanical energy

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  47. S

    Basic Line-Integral: Just trying to know what is being asked

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  48. S

    Ice on an inverted bowl: Radial force?

    Hello! I am just stuck on one part of this question and would be grateful for any help. Question A small block of ice slides from rest from the top of an inverted frictionless bowl of radius R (above right). How far below the top x does the ice lose contact with the bowl? Equations mgx =...
  49. jlmccart03

    Conservation of Energy Homework problem

    Homework Statement A ball of mass m falls from height hi to height hf near the surface of the Earth. When the ball passes hf, it has a speed of vf. Ignore air resistance. Consider the system T which consists of the ball only. Write an expression for each of the following quantities in terms of...
  50. Cocoleia

    How to find trajectory as a function of time with energy

    Homework Statement I am given that an object of mass m has an attractive force F=-A/x^2 acting on it, where A is a constant and x>0. I need to find the potential energy. After i need to suppose initial conditions (x0, v0) such that total energy=0. I need to find the trajectory x(t) with v>0...
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