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. J

    Conservation of Energy - Bungee Jumping

    Conservation of Energy -- Bungee Jumping Homework Statement Unstretched length = 139 ft k = 39 lb/ft Weight of jumper = 122 lbs Homework Equations Assuming he hasn't hit the ground, how much has the bungee chord stretched when the professor is at the bottom of the jump? (ft) The...
  2. D

    Conservation of energy - spring

    Homework Statement A spring has an equilibrium length of 1m. The spring is compressed to a length of .5m and a mass of 2kg is placed at its free end on a frictionless slope which makes an angle of 41degree wrt the horizontal. The spring is then releases. a. If the mass is NOT attached to the...
  3. D

    Conservation of energy experiment

    Homework Statement We had an air track and let a cart of mass m travel downhill. The we calculated the velocity and firther the kinetic energy K and the gravitational energy U. We did this to show that the total energy in the system stays constant. Now I need to answer the question if I...
  4. X

    Past Cambridge, conservation of energy problem.

    Homework Statement http://www-teach.phy.cam.ac.uk/dms/dms_getFile.php?node=5735 problem B8, the one with the with finding h>11(R-a)/4 Homework Equations (1/2)mv^2=mgh ac=(v^2/R) w=V/R (1/2)mv^2+(1/2)Iw^2 The Attempt at a Solution At the top of the circle, the velocity squared is GR. And...
  5. D

    Pulley, conservation of energy

    Homework Statement A system has two blocks connected by frictionless pulleys. One block (m = 3kg) is above the other (m = 2kg) vertically, as the other is lowered by a weight. Initially, they are 5m apart, vertically. When the weight is removed, what is the speed of the blocks when they are at...
  6. K

    Velocity of an electron and Conservation of energy

    Homework Statement A pair of charged conducting plates produces a uniform field of 12,000 N/C directed to the right, between the plates. The separation of the plates is 40 mm. In the figure, an electron is projected from plate A, directly toward plate B, with an initial velocity of 2.0 x 10^7...
  7. T

    Does Time-Energy Uncertainty Violate Energy Conservation?

    Hi folks, I am new to physics forums , an engineer by profession, I have newly developed some interest for pure physics, can someone please enlighten me on the violation of energy conservation by the time energy UP? The way I understand it the principle only puts a LOWER bound. Is...
  8. mrspeedybob

    Is the conservation of energy a statistical phenomena?

    Suppose you build a heat engine. On one side you have a hot body, on the other side you have a cold body. Between the 2 you have the heat engine but on a parallel path you have a simple heat conductor. What will happen is that some of the heat will travel through and power the heat engine...
  9. J

    Conservation of Energy with kinematics

    Homework Statement (a) If R = 12 cm, M = 570 g, and m = 50 g in Figure 10-18 (below), find the speed of the block after it has descended 50 cm starting from rest. Solve the problem using energy conservation principles. M is the mass of the mounted uniform disk. A block with mass m hangs from...
  10. S

    Breaking the Law of Conservation of Energy

    When a basketball is dropped then bounces up it reaches 0 kinetic energy, but it doesn't reach original height it was dropped from. Why does this not violate the Law of Conservation of Energy?
  11. A

    Conservation of energy question

    This is a conceptual question I've been thinking about dealing with conservation of energy. For example, say you have two charged spheres, one positive and one negative. The positive one is glued in place while you kick the negative one away. How fast would you have to kick the negative one...
  12. D

    Black Hole: Conservation of energy

    If black holes exist, they can't consume infinite amount of matter, so where does this energy go if it is not dissipated? Is it gamma ray bursts that dissipate this huge amount of energy? Or maybe a better question is, once a black hole is created, how long can it last? or do they last forever?
  13. D

    Law of Conservation of Energy of a downhill skier

    1. A skier is pushed from the top of a hill so that he starts moving down the hillside sloped at 27.6° to the horizontal with an initial speed of 0.434 m/s. After traveling 80.4 m, he reaches the bottom of the valley. Due to inertia, he then continues 70.4 m up another hillside sloped at 20.7°...
  14. I_am_learning

    How fundamental is Law of Conservation of Energy?

    Is it just as fundamental as Newtons Law of Motion or it is deeper than that? I mean, is it like- No matter what invention and discoveries you come up in future, no matter which theories fail and which emerge, this Law of Conservation of Energy shall always stand above all.
  15. mrspeedybob

    Expansion and Conservation of Energy

    Suppose two massive bodies are far enough apart that the expansion of space precisely counteracts their gravitational attraction. While in this configuration a tether is strung between them, tied off to body A and wound around a pulley on body B. One of the bodies is then nudged so that the...
  16. B

    Conservation of Energy problem

    Here's the question: Two children are playing a game in which they try to hit a small box on the floor with a marble fired from a spring-loaded gun that is mounted on a table. The target box is horizontal distance D = 2.20 m from the edge of the table. Bobby compresses the spring 1.1 cm, but...
  17. B

    Conservation of energy for a system

    Hello everyone I am stuck on this question, hopefully someone can help me out, here is the question: 2kg block is sitting on surface while 3kg block is hanging. So far this is what I am thinking, the 2 blocks acts as a system, initially the block is 1.5m high, so mgy gives me the...
  18. F

    The conservation of energy, why does it work? Negative work vs positive work

    Homework Statement This is the conservation of energy in the absence of external forces ΔKE + ΔPE + ΔTE + ΔU= 0 TE is friction, U is other internal energy, like the spring So expand and disregard U and TE for a moment ½m(v² - v₀²) + mg(h - h₀) = 0 Now comes the...
  19. F

    The conservation of energy applying to TWO objects

    Homework Statement http://www.collegeboard.com/prod_downloads/ap/students/physics/ap04_frq_physics_cm.pdf Question 2 part c) "Calculate the rotational inertia of the pulley" Answer Key: http://www.collegeboard.com/prod_downloads/ap/students/physics/ap04_frq_physics_cm.pdf...
  20. B

    Gravitation with Conservation of Energy and Momentum

    1. Two spheres having masses M and 2M and radii R and 3R, respectively, are simultaneously released from rest when the distance between their centers is 12R. Assume the two spheres interact only with each other and we wish to find the speeds with which they collide. Write an equation from one of...
  21. O

    Conservation of energy and electrons in electric field?

    Homework Statement http://www.screencast.com/users/trinhn812/folders/Jing/media/6596c399-feb6-49cf-82a7-d6d16c2a88e8 Question 17 Homework Equations So I solved this problem using kinematics and would like to learn how to solve it use conservation of energy. I can't seem to get the right...
  22. H

    Law of conservation of energy homework help

    Law of conservation of energy homework help! Homework Statement A skier goes down a slope and goes over a ramp. From a resting position which has a height of 16m, she leaves a ramp of 9m at an angle of 45 degrees and passes over a haystack forming a 30degree angle vertically. Supposing...
  23. H

    Conservation of energy and fricion

    Homework Statement Got an assignment from the teacher to present a problem I have made by myself and show how I have done it, so I have no answer to refer to in this particular question. Anyways, A car is pushed so that it gains a speed of 2m/s just off a steep road, which has an angle of 35...
  24. U

    Conservation of energy of a bike uphill

    Homework Statement Jonathan is riding a bicycle and encounters a hill of height h. At the base of the hill, he is traveling at a speed vi. When he reaches the top of the hill, he is traveling at a speed vf. Jonathan and his bicycle together have a mass m. Ignore friction in the bicycle...
  25. Y

    Understanding Gravitational Potential Energy: 3 Questions Answered

    I have three questions here, and I am a bit confused about what "relative to" means in this context: 1."A 1.91 kg ball is attached to a ceiling by a 3.28 m long string. The height of the room is 5.94 m . The acceleration of gravity is 9.8 m/s2 . What is the gravitational potential energy...
  26. A

    Conservation of Energy and Momentum Lie

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  27. M

    Conservation of Energy within a pulley system

    Homework Statement Two objects are connected by a light string passing over a light frictionless pulley as shown in the figure. the 5.87 kg object is released from rest at a point 2.55m above the floor. The acceleration of gravity is 9.8 m/s^2. What is the speed of each object at the instant...
  28. L

    Conservation of energy and rotational energy -

    Homework Statement A solid, uniform spherical ball rolls without slipping up a hill. At the top of the hill it is moving horizontally, and then it goes over a vertical cliff. How far from the foot of the cliff does the ball land, and how fast is it moving before it lands. Use conservation...
  29. A

    Projectile fired from earth. Conservation of energy

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  30. M

    Conservation of energy and GPE problem

    Homework Statement A 2.7 kg bundle starts up a 27° incline with 106 J of kinetic energy. How far will it slide up the incline if the coefficient of kinetic friction between bundle and incline is 0.42? Homework Equations K= 1/2mv^2 conservation of energy => Ki + Ui = Kf+Uf The...
  31. P

    Conservation of energy problem

    Homework Statement A .4 kg ball is thrown with a speed of 12 m/s at an angle of 33 degrees. What is its speed at its highest point, and how high does it go? Use conservation of energy and ignore air resistance. Homework Equations mgyi+1/2mvi2=mgyf+1/2mvf2 The Attempt at a Solution...
  32. T

    Conservation of energy and momentum homework

    A 2.0 kg ball at rest is struck head-on by a 5.0 kg ball moving along a track at 10.0 m/s in an elastic collision. What is the speed of the 5.0 kg ball and the 2.0 kg ball after the elastic collision? ----I'm sure this is a pretty simple question but I don't where to start. Is the following...
  33. D

    Conservation of energy and momentum for a bullet fired into a block

    Homework Statement An 8 g bullet is fired into a 2.5 kg block initially at rest at the edge of a frictionless table of height 1 m. The bullet remains in the block and lands 2 m from the bottom of the table after impact. Determine the initial speed of the bullet. Answer: 1392 m/s...
  34. A

    Force of friction. Non conservation of energy

    Homework Statement A 15 kg child slides, from rest, down a playground slide tht is 4.0 m long, as shown in the figure. The slide makes a 40 degrees angle with the horizontal. The child's speed at the bottom is 3.2 m/s. What was teh force of friction that the sldie was exerting on the child...
  35. K

    Conservation of Energy Help (p2)

    Homework Statement From what height would a compact car have to be dropped to have the same kinetic energy that it has when being driven at 105 km/h? Unless otherwise directed, assume that air resistance is negligible. Answer: __ m Velocity: 105 km/h -> 105000 m/s Height: ...
  36. K

    How Fast Does a Book Fall from 4.20 Meters?

    A physics book of unknown mass is dropped 4.20 m. What speed does the book have just before it hits the ground? Unless otherwise directed, assume that air resistance is negligible. Height: 4.20 Acceleration: 9.81 Mass: ? Velocity: ? The answer box is for velocity: ___ m/s Homework...
  37. S

    Conservation of Energy, Work done on a System by an External Force

    A 1.6 kg breadbox on a frictionless incline of angle θ = 36° is connected, by a cord that runs over a pulley, to a light spring of spring constant k = 120 N/m, as shown in the figure below. The box is released from rest when the spring is unstrectched. Assume that the pulley is massless and...
  38. T

    Conservation of energy and GPE

    Car has a mass of 1000 kg its at a the top of a 10 degree hill. so if you were to draw a triangle the the base of the triangle would be 50 M in length as well. a)what is it gravitational potential energy relative to the bottom of the hill? Height = 50 * Tan 10 = 8.816 Potential...
  39. J

    Rotation conservation of energy

    Homework Statement Exactly one turn of a flexible rope with mass m is wrapped around a uniform cylinder with mass M and radius R. The cylinder rotates without friction about a horizontal axle along the cylinder axis. One end of the rope is attached to the cylinder. The cylinder starts with...
  40. A

    Conservation of energy problem

    I am having trouble with the following problem: With what velocity should a projectile be started ar the center of the Earth to reach the surface of the Earth? When I attempt to solve this using 1/2mv^2 = -(GMm)/R I get an answer of 11.8 km/s. However, the correct answer is 7.9km/s. I...
  41. S

    Conservation of Energy: Bungie Jumping

    Homework Statement Bungie Jumper starts 65 meters from ground. Wants to end fall 10m from ground (55 meters from the top). Cord follows Hookes law. We know that when his body weight hangs at rest from a 5 meter section of cord, he stretches the cord 1.5 meters. How long should his cord be...
  42. N

    Kinetic Energy, Conservation of Energy, Potential Energy, etc

    Homework Statement see the diagram two posts below this. A bead slides on a wire, which is in a vertical plane, as shown in the diagram. Gravity acts in the -y direction. The bead starts at A, moving to the right with an initial velocity v. The wire is frictionless between A and D and between F...
  43. K

    Conservation of Energy ball of mass

    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 speed vf. Ignore air resistance, and assume that any changes in kinetic energy of the Earth are negligible. Also, the starting velocity of the ball is zero...
  44. P

    Conservation of Energy graph help

    What should a graph of potential energy versus kinetic energy look like. My graph is linear but I'm pretty sure it should look like a parabola.
  45. P

    Potential vs Kinetic Energy Graph: Linear or Parabola?

    What should a graph of potential energy versus kinetic energy look like. My graph is linear but I'm pretty sure it should look like a parabola.
  46. E

    How Far Will a Mass Travel on a Frictionless Incline After Going Through a Loop?

    Homework Statement A mass starts at top of incline with a length of 10 meters with an angle of 36 degrees. Incline has friction with a coefficient of kinetic friction of .26. At bottom of incline is a horizontal, frictionless surface which has a loop of radius 2 meters. After loop is a...
  47. Mmm_Pasta

    Finding Speed Using Conservation of Energy

    Homework Statement A massless spring has unstretched length Lo = 0.45 m and spring constant k = 122.3 N/m. A block of mass m = 1.87 kg is attached to the spring, and a student stretches the spring to a length of L = 1.1 m. Then the student releases the block and it shoots upward. What is...
  48. A

    Conservation of Energy: Kinetic to Elastic Potential

    Homework Statement A 0.150-kg frame, when suspended from a coil spring, stretches the spring 0.050m. A 0.200-kg lump of putty is dropped from rest onto the frame from a height of 30.0m. mass of frame: mf mass of putty: mp height: h Homework Equations The Attempt at a Solution...
  49. K

    Spring problem - conservation of energy?

    Homework Statement A 15.0g ball is to be shot from a spring gun whose spring has a constant force of 600 N/m. The spring will be compressed 5.00 cm when in use. How fast will the ball be moving as it leaves? How high will it go if the gun is pointed vertically? Homework Equations I'm...
  50. C

    Optimize Conservation of Energy with Water Wheel

    A five gallon bucket of water is placed five feet above the ground. The initial diameter of the pipe leading from the bucket is six inches. Energy from the falling water is captured by a water wheel. Optimally, there should be a complete transfer of energy from the water to the water wheel...
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