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. M

    Conservation of energy up a ramp.

    Homework Statement Suppose there is a block attached to a spring with spring constant k. The block is pushed so that it compresses the spring a distance x_1. The block is released and slides without friction up a ramp, coming to a maximum height h_1 above the ground. Suppose we compressed the...
  2. deep838

    Violating the law of conservation of energy

    I know that's impossible, so please help me! Let there be a body rotating about its axis, with a moment of inertia I and an angular velcity w. The angular momentum of the system is L = Iw. Now, if the radius of the body change, its moment of inertia will also change. Let the new moment of...
  3. F

    Conservation of Energy in Orbits

    Homework Statement 1.A rocket at the surface of the Earth is launched with a speed of 2500m/s. What is the orbit that the rocket will achieve? 2.A meteorite traveling at 3500m/s approaches Earth from outer space. With what speed will the meteorite hit the surface of Earth? 3.Also, in...
  4. Saxby

    Conservation of energy in standing wave

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  5. F

    Conservation of energy minimum speed

    Homework Statement Gus is at end of rope. He needs to reach roof. His friend fires cannon ball horizontally hitting Gus and get stuck in belt. Find minimum speed of cannon ball for Gus to reach roof. 50m is rope. 99kg is Gus. 1kg is ball. 45° angle in diagram Homework Equations...
  6. T

    Conservation of energy water turbine problem

    Homework Statement Homework Equations mgh=1/2mv^2 The Attempt at a Solution 7.1) 200*1000=200000kg 7.2) Must I use mgh? They asked for kinetic energy but energy is conserved so: 200000*9.8*150 = 2.9*10^8 J 7.3) Ep=Ek 2.9*10^8=1/2*200000*v^2 v=53.8 m.s 7.4) 85% of 2.9*10^8 = 2.5*10^8 J...
  7. E

    Electricity with conservation of energy involved.

    A tiny sphere of mass 7.70 µg and charge −2.80 nC is initially at a distance of 1.74 µm from a fixed charge of +9.25 nC. (a) If the 7.70-µg sphere is released from rest, find its kinetic energy when it is 0.500 µm from the fixed charge. (b) If the 7.70-µg sphere is released from rest, find...
  8. F

    Law of conservation of energy and springs.

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  9. J

    Black Hole - Conservation of energy?

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  10. R

    Latent Heat and conservation of energy

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  11. A

    Conservation of Energy problem

    Homework Statement Here's the problem : http://www.diigo.com/item/image/2sb3i/wonu Homework Equations Ei = Ef The Attempt at a Solution The surface between A and B is frictionless : Ei = Ef KA + UA = KB + UB mghA = 1/2 mvB2 vB2 = 2ghA = 2*9.8*3 = 58.8 m/s The surface...
  12. 7

    Pair production - conservation of momentum VS conservation of energy

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  13. A

    Resonance and conservation of energy

    Hello, We're studying sound waves in Physics and my instructor did a quick demo showing resonance with a tuning fork. He showed that when a tuning fork is struck and then connected to a resonating cavity, the sound is substantially amplified. I understand that resonance arises due to sound waves...
  14. A

    Conservation of Energy + Projectile Motion

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  15. D

    How Does the Law of Conservation of Energy Apply to a Particle's Motion?

    Homework Statement A particle of mass 0.400 kg is shot from P . The particle has an initial velocity vi with the horizontal component of 30 m/s. The particle rises to a maximum height of 20 m above P. Using the law of conservation of energy, determine : (a) the vertical component of vi (b)...
  16. I

    Problem with geometry in conservation of energy problem

    My problem is with where the initial height being R - R cos theta. I don't really get where that came from. any hints on where i could look to find the answer or suggestions on how to start are greatly appreciated. nevermind i figured it out
  17. S

    Conservation of energy during generation of entanglement

    Understanding conservation of energy during generation of entanglement. In the experiment for generation of entangled pair of photons via SPDC Single photons are struck on a BBO crystal. In about 1 in a trillion of such collisions, two photons emerge. Questions: 1. Is the...
  18. B

    Help With Conservation Of Energy Concept

    Hi guys, Can someone help explain something to me. In a situation of an asteroid heading straight towards the Earth, I'm trying to understand where the energy comes and goes (using just gravitational potential energy and kinetic energy). Consider the energy of the asteriod some distance...
  19. A

    Particle in superposition of energy eigenstates and conservation of energy.

    When a particle is in superposition of energy eigenstates and has a probability of being found in either state, what does that say about the energy of the particle and conservation of energy. What I mean is, since the energy eigenstates have different energy values, where's the rest of the...
  20. P

    Conservation of Energy (Kinetic and Potential Energies)

    Homework Statement A 5.00-kg block is set into motion up an inclined plane with an initial speed of 8.00 m/s. The block comes to rest after traveling 3.00m along the plane, which is inclined at an angle of 30° to the horizontal. For this motion, find the change in the block's kinetic energy...
  21. Y

    Conservation of Energy: Spring onstant

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  22. S

    Light as a particle/ compton effect, conservation of energy and momentum

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  23. D

    How high did the vaulter jump?

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  24. D

    Finding conservation of energy through Newton's Law.

    Homework Statement I'm devising a lab to find/prove the conservation of energy through one of Newton's laws. I can substitute variables when do the lab, but I need to design it first before I assign variables or data.Homework Equations K.E.(initial) + P.E(initial) = K.E.(final) + P.E.(final) X...
  25. P

    Conservation of energy question.

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  26. D

    Conservation of Energy Problem - Very Tricky

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  27. M

    Conservation of Energy in a Rigid Body

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  28. E

    Conservation of energy, A bomb explodes into three pieces

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  29. I

    Conservation of Energy and internal energy

    Homework Statement A 0.75-kg block slides on a rough horizontal table top. Just before it hits a horizontal ideal spring its speed is 3.5m/s. It compresses the spring 5.7 cm before coming to rest. If the spring constant is 1200N/m, the internal energy of the block and the table top must...
  30. J

    Conservation of energy flywheel experiment

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  31. L

    Conservation of energy with kinetic energy and spring

    Homework Statement A dynamics cart 1 ahs a mass of 1.8 kg and is moving with a velocity of 4.0 m/s[right] along a frictionless track. Dynamics cart 2 has a mass of 2.2 kg and is moving at 6.0 m/s[left]. The carts collide in a head-on elastic collision cushioned by a spring with spring constant...
  32. T

    Conservation of energy with springs and rotational motion

    Homework Statement Homework Equations T1 + V1 = T2 + V2 T = kinetic energy V = potential energy The Attempt at a Solution I am only confused about how to get T2. Here is how the answer key gets T2: I don't get why Va = Vb = 0. The wheels have some velocity so it doesn't...
  33. T

    Conservation of energy with rotational motion problem

    Homework Statement Alright so I am confused about why the solution does not include the kinetic energy due to rotational energy from I_g2 as indicated in red in the following image. I don't understand why they would neglect it... I calculated the value and it makes a big difference.
  34. R

    Quick Question on Conservation of Energy

    Quick Question on Conservation of Energy! :( #1. For this one, I did a) W = ½kx² = ½*410*.053² = 0.5758 J b) V = √[2W/m] = √[2*.5758/2.00] = 0.7588 m/s Are those right? If so, can you help me solve Number 3 and 7 real quick! #3. #7.
  35. L

    Using the conservation of energy find speed

    Homework Statement A spring, having a force constant of 6.0x102 N/m, is held in a vertical position and compressed 0.30m. A 5.0 kg mass is then placed on top of the spring. THe mass is then releases. Neglecting air resistance and the mass of the spring The Attempt at a Solution Ek1 = Ek2...
  36. L

    Conservation of energy using orientation

    Homework Statement a hockey player of mass 80 kg was skating at a velocity of 7.5 m/s [E 20 S] when he accidentally hit a linesman who was just standing on the ice. The mass of the linesman is 90 kg and his velocity after the collision was 3 m/s [ N 30 E]. Find the velocity of the hockey...
  37. S

    Conservation of energy, how far must a spring be compressed

    Two children are playing a game in which the try to hit a small box on the floor with a marble fired from a spring loaded gun mounted on a table. The target box is horizontal distance D=2.20 m from the edge of the table. Bobby compresses the spring 0.011m but the center of the marble falls 0.27...
  38. F

    Conservation of Energy and Electric Potential

    Homework Statement A very long, thin straight line of charge has a constant charge density of 2.0pC/cm. An electron is initially 1.0cm from the line and moving away with a speed of 1000km/s. How far does the electron go before it comes back? Homework Equations ΔU = ΔV*q ΔKE + ΔU = 0...
  39. 0

    Conservation of Momentum v.s. Conservation of Energy

    Hi, I'm new to this forum. So I do not understand how, in an inelastic system, momentum is conserved. Consider this problem: Tarzan swings from a branch 4 meters up and picks up jane how far can he swing up the other side? He weighs 100kg and is standing still on the branch. He jumps...
  40. P

    Conservation of energy in case of rotating falling rod

    Suppose we have a rod standing vertically and then slightly disturbed so it begins to fall. After it falls through some height or angle assuming a clockwise rotational fall I can see that the left end is sliding on the surface ( for simplicity I'm ignoring friction ) horizontally. Here I assume...
  41. K

    Is the conservation of energy being applied correctly in this scenario?

    I don't know if I'm setting up the energies correctly. 1. Two objects are connected by a light string passing over a light, frictionless pulley. The object of mass m1=5.00kg is released from rest at a height h=4m above the table. Using the isolated system model, (a) determine the speed of the...
  42. K

    Comet Crashes in Earth Conservation of Energy

    Homework Statement A comet is traveling towards the earth. The comet has a mass of 4.80E+12 kg and a radius of 385 m. The comet is traveling with a speed of 19 km/s and spinning with a period of 0.12 seconds when its center is a distance 1.88E+7 m away from the center of the earth. The comet...
  43. E

    What Happens to a Pendulum's Height at a 90-Degree Angle?

    [b]1.2. If a ball and string pendulum is pulled and lifted to a height = 10 cm and the length of the string is 1 m what will be the value of h when the string makes an angle of 90 degree with the vertical? Please ignore the 0.5 m it should be a h = 10 cm or 0.1 m the diagram is to provide a...
  44. W

    Conservation of energy spring problem

    Homework Statement A block of mass m=2.00 kg is attached to a spring of force constant κ=500 N/M. the block is pulled to a position xi=.05m and released from rest. Find the speed the block has as it has passed equilibrium. Assume frictionless. Homework Equations ΔEsystem=ƩT(transfer)...
  45. R

    There MUST be steps to solving problems dealing with Conservation of Energy No?

    There MUST be steps to solving problems dealing with Conservation of Energy! No? There just HAS to be... like Step 1) What does the problem give you... Step 2) Was does the law of Conservation of Energy state Etc Etc... For example...16. A 66.0-kg person throws a 0.0480-kg snowball forward...
  46. R

    Conservation of energy using a spring

    Homework Statement A 785-gram metal block is placed on a level table that is 1.6 m high. It is connected to a horizontal spring whose force constant is 3000 N/m. The block is pushed against the spring, compressing it by 0.100 m, and released. It slides along the table and goes off of the...
  47. N

    Conservation of energy problem child slides down at angle? check my asnwers?

    A child whose weight is 267 N slides down a 6.10 m playground slide that makes an angle of 20.0° with the horizontal. The coefficient of kinetic friction between slide and child is 0.10. (a) How much energy is transferred to thermal energy? (b) If she starts at the top with a speed of 0.534...
  48. N

    Conservation of energy, PE & KE problem. help?

    Conservation of energy, PE & KE problem. help?? a block is sent sliding down a frictionless ramp. Its speeds at points A and B are 2.00 m/s and 2.60 m/s, respectively. Next, it is again sent sliding down the ramp, but this time its speed at point A is 4.00 m/s. What then is its speed at point...
  49. N

    Conservation of Energy, PE & KE, block on incline with KE & friction?

    A 4 kg bundle starts up a 30° incline with 128 J of kinetic energy. How far will it slide up the plane if the coefficient of friction is 0.30? So the solution to the problem is 128 = 4(9.8)(x)(sin30) + 0.30 (4)(9.8)(x)(cos30)...x = 4.29m I don't understand the solution. so 128 =...
  50. N

    Conservation of Energy, PE & KE, ball attach to string problem?

    The string in the Figure is L = 120 cm long, has a ball attached to one end, and is fixed at its other end. The distance d to the fixed peg at point P is 75.0 cm. When the initially stationary ball is released with the string horizontal as shown, it will swing along the dashed arc. What is...
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