Elastic potential energy Definition and 92 Threads

Elastic energy is the mechanical potential energy stored in the configuration of a material or physical system as it is subjected to elastic deformation by work performed upon it. Elastic energy occurs when objects are impermanently compressed, stretched or generally deformed in any manner. Elasticity theory primarily develops formalisms for the mechanics of solid bodies and materials. (Note however, the work done by a stretched rubber band is not an example of elastic energy. It is an example of entropic elasticity.) The elastic potential energy equation is used in calculations of positions of mechanical equilibrium. The energy is potential as it will be converted into other forms of energy, such as kinetic energy and sound energy, when the object is allowed to return to its original shape (reformation) by its elasticity.




U
=


1
2


k

Δ

x

2





{\displaystyle U={\frac {1}{2}}k\,\Delta x^{2}\,}
The essence of elasticity is reversibility. Forces applied to an elastic material transfer energy into the material which, upon yielding that energy to its surroundings, can recover its original shape. However, all materials have limits to the degree of distortion they can endure without breaking or irreversibly altering their internal structure. Hence, the characterizations of solid materials include specification, usually in terms of strains, of its elastic limits. Beyond the elastic limit, a material is no longer storing all of the energy from mechanical work performed on it in the form of elastic energy.
Elastic energy of or within a substance is static energy of configuration. It corresponds to energy stored principally by changing the interatomic distances between nuclei. Thermal energy is the randomized distribution of kinetic energy within the material, resulting in statistical fluctuations of the material about the equilibrium configuration. There is some interaction, however. For example, for some solid objects, twisting, bending, and other distortions may generate thermal energy, causing the material's temperature to rise. Thermal energy in solids is often carried by internal elastic waves, called phonons. Elastic waves that are large on the scale of an isolated object usually produce macroscopic vibrations sufficiently lacking in randomization that their oscillations are merely the repetitive exchange between (elastic) potential energy within the object and the kinetic energy of motion of the object as a whole.
Although elasticity is most commonly associated with the mechanics of solid bodies or materials, even the early literature on classical thermodynamics defines and uses "elasticity of a fluid" in ways compatible with the broad definition provided in the Introduction above.Solids include complex crystalline materials with sometimes complicated behavior. By contrast, the behavior of compressible fluids, and especially gases, demonstrates the essence of elastic energy with negligible complication. The simple thermodynamic formula:



d
U
=

P

d
V

,


{\displaystyle dU=-P\,dV\ ,}
where dU is an infinitesimal change in recoverable internal energy U, P is the uniform pressure (a force per unit area) applied to the material sample of interest, and dV is the infinitesimal change in volume that corresponds to the change in internal energy. The minus sign appears because dV is negative under compression by a positive applied pressure which also increases the internal energy. Upon reversal, the work that is done by a system is the negative of the change in its internal energy corresponding to the positive dV of an increasing volume. In other words, the system loses stored internal energy when doing work on its surroundings. Pressure is stress and volumetric change corresponds to changing the relative spacing of points within the material. The stress-strain-internal energy relationship of the foregoing formula is repeated in formulations for elastic energy of solid materials with complicated crystalline structure.

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  1. P

    Conceptual doubt about elastic potential energy of a system

    Good afternoon, First of all, this is not a homework question, but I'm not sure whether it should be posted on the Homework section. My problem arose when I tried to think about what happens when a spring does work in two blocks. First, consider two blocks (1 and 2) on a frictionless...
  2. P

    Oscillations and Elastic Potential Energy

    Homework Statement A mass of 1.5 kg oscillates vertically at the end of a lightweight spring. The spring has a spring constant of 145 Newtons per meter. The amplitude of the motion is 8.00 cm. From this data, complete the table below. I have to find velocity, acceleration, elastic...
  3. R

    Finding x when Elastic Potential Energy equals Kinetic Energy

    Here's the problem I've been working on: "A mass is oscillating with amplitude A at the end of a spring. How far (in terms of A) is this mass from the equilibrium position of the spring when the elastic potential energy equals the kinetic energy?" Now I know that Us = 0.5*k*x^2 and K =...
  4. M

    Webpage title: Understanding Elastic Potential Energy in Springs

    Question: Is more elastic potential energy stored in a spring when the spring is compressed by one centimeter than when it is stretched by the same amount? my conclusion: part of the definition in the book states that Elastic Potential Energy is the energy that a spring has by virtue...
  5. W

    Elastic Potential Energy Question

    Homework Statement A pinball machine launches a 90g ball with a spring driven plunger. The game board is inclined at an angle of 6\circ above the horizontal. Assume the plunger's mass and frictional effects are negligible. The acceleration of gravity is 9.8m/s2. Find the force...
  6. S

    Elastic potential energy completely lost to projectile?

    Homework Statement Suppose you have a mass/spring system (with spring constant k) buried underground such that its relaxed (equilibrium) position is level with the ground. Then suppose someone takes a small ball of mass m and compresses the spring a distance xo below the mass/spring's...
  7. K

    Spring Elastic Potential Energy Help

    I feel so confused right now, I'm probably over thinking this though. Please help! 1) A slingshot consists of a light leather cup, containing a stone, that is pulled back against two parallel rubber bands. It takes a force of 11 N to stretch either one of these bands 1.1 cm. (a) What is the...
  8. B

    Elastic Potential Energy- finding spring constant

    Homework Statement In a physics lab experiment, a spring clamped to the table shoots a 22 g ball horizontally. When the spring is compressed 18 cm, the ball travels horizontally 5.2 m and lands on the floor 1.5 m below the point at which it left the spring. Homework Equations Us=...
  9. H

    Understanding elastic potential energy

    where does the formula 1/2 Fx come from - i need to find out where the half comes from for some coursework of mine :S cheers,:cool:
  10. P

    Elastic potential energy problem needs to be checked

    Homework Statement a force of 2.0 N is needed to push a .1k jack in the vox into its box, an operation in whihc the spring is compressed .1 m. what will be eh maximum speed of the jack in the box when it comes out? Homework Equations k=f/x T=2pi(sq.root(m/k) Vmax=(2piA)/T The...
  11. W

    Elastic Potential Energy and spring

    A 2.40 kg object is hanging from the end of a vertical spring. The spring constant is 40.0 N/m. The object is pulled 0.200 m downward and released from rest. Complete the table below by calculating the translational kinetic energy, the gravitational potential energy, the elastic potential...
  12. K

    Elastic Potential Energy problem

    Homework Statement A spring has a force constant of 30000 N/m. How far must it be stretched for it's potential energy to be 47 J? Answer in units of m.Homework Equations Us= 1/2k(∆x)^2The Attempt at a Solution 47= 1/2 (30000)(x)^2 47=15000(x)^2 -14953= x^2 √14953= 122.28
  13. C

    Elastic Potential Energy Physics Problem

    Homework Statement The staples inside a stapler are kept in place by a spring with a relaxed length of 0.115 m. If the spring constant is 51 N/m, how much elastic potential energy is stored in the spring when its length is 0.150 m? Ok, so: Relaxed length= 0.115 m k= 51 N/m x= .150-.115=...
  14. M

    Elastic Potential Energy of a Spring Between 2 Blocks

    Homework Statement Here's the question: Block A in the figure below has mass 1.00 kg, and block B has mass 3.00 kg. The blocks are forced together, compressing a spring S between them; then the system is released from rest on a level, frictionless surface. The spring, which has negligible...
  15. A

    EGG drop with elastic potential energy.

    Hi I am trying to find at what hight i need to drop a egg from 2-6 meters. We will start with 2 meters. The weight of the egg and device holding the egg is .11kg together. I no the formulas for EPE and EP " EPE=1/2KX^2 AND PE=mgh. The question is now how to find where on the elastic band to...
  16. A

    Egg Drop with elastic potential energy.

    Hi I am trying to find at what hight i need to drop a egg from 2-6 meters. We will start with 2 meters. The weight of the egg and device holding the egg is .11kg together. I no the formulas for EPE and EP " EPE=1/2KX^2 AND PE=mgh. The question is now how to find where on the elastic band to...
  17. P

    Need Help on an Elastic Potential Energy Problem on an incline

    Homework Statement A spring (k=75 N/m) has an equilibrium length of 1 m. The spring is compressed to a length of .5 m and a mass of 2 kg is placed at its free end on a frictionless slope which makes an angle of 41 degrees with respect to the horizontal. The spring is then released. a) If the...
  18. H

    Force / elastic potential energy of a rubber band

    Suppose we have a rubber band of some elasticity k and of unstreched radius r0 (the band is always kept in the shape of a circle). What work is necessary to strech it to some larger radius r? How do we apply Hooke's law in this situation? Thanks
  19. B

    Elastic Potential Energy homework

    A 2.40 kg object is hanging from the end of a vertical spring. The spring constant is 41.0 N/m. The object is pulled 0.200 m downward and released from rest. Complete the table below by calculating the translational kinetic energy, the gravitational potential energy, the elastic potential...
  20. Q

    Elastic potential energy question

    A slingshot will shoot a 10-g pebble 22.0 straight up. How much potential energy is stored in the slingshot's rubber band? the solution is U = mgy = (10 g)(9.8 m/s^2)(22.0 m) according to the book. does this mean the potential energy of the slingshot's rubber band is equal to the...
  21. R

    Elastic Potential Energy and SMH

    Homework Statement A simple harmonic oscillator has a total energy E. a) Determine the kinetic and potential energies when the displacement is one half the amplitude. b) For what value of the displacement does the kinetic energy equal the potential energy? Homework Equations PEs=...
  22. I

    Spring Elastic Potential Energy

    [SOLVED] Spring Elastic Potential Energy Hi, I have a question (link below with scanned page) on a spring, some load and I have the strain energy of the spring. Can anyone help me double check (a) and guide me along with (b) and (c)? From there I think I know how to do part (d). Your...
  23. J

    Elastic potential energy problem help

    [SOLVED] Elastic potential energy I am not sure what the question ask, and have no clue in solving this question, can somebody help me? http://tinyurl.com/3a8vnu
  24. P

    Elastic Potential Energy stored in rubber band

    Hello Everyone. It has a year since I have worked with Elastic Potential Energy & I have forgotten the formula to work it out. I have this question and would appreciate it if anyone could tell me how to do it, or tell me the formula of how to work it out. So here it is: Rachel pulls...
  25. P

    Elastic potential energy of spring

    Homework Statement A spring of spring constant k is suspended from the ceiling with a mass M attached to its lower end. The spring has negligible mass. Show that the sum of the elastic potential energy of the spring and the gravitational potential energy of the mass is a minimum at the...
  26. E

    Elastic Potential Energy of a glider

    Homework Statement A glider with mass 0.200kg sits on a frictionless horizontal air track, connected to a spring with force constant k = 5.00N/m. You pull on the glider, stretching the spring 0.100m and then release it with no initial velocity. The air track is turned off, so there is a...
  27. R

    Elastic Potential Energy of a marble

    Homework Statement A horizontal spring, of force constant 12 N/m is mounted at the edge of a lab bench to shoot marbles at targets on the floor 93.0 cm below. A marble of mass 8.3 X 10 ^ -3 kg is shot from the spring, which is initially compressed a distance of 4.0 cm. How far does the marble...
  28. S

    Elastic potential energy of toy car

    Homework Statement A toy car of mass 0.5kg is pushed agains a spring so that it is compressed by 0.1m. The spring obeys Hooke's Law and has a spring constant of 50N/m. When the toy car is released, what will its speed be at the instant that the spring returns to its natural length? Assume that...
  29. C

    Elastic Potential Energy Question tough

    Elastic Potential Energy Question! tough An 86.0 kg climber is scaling the vertical wall of a mountain. His safety rope is made of nylon that, when stretched, behaves like a spring with a spring constant of 1.20 x 10^3 N/m. He accidentally slips and falls freely for 0.750 m before the rope runs...
  30. K

    Elastic Potential Energy Stored

    Question - A stretched elastic band of mass 0.67g is released so that its initial velocuty is horizontal, and its initial position is 9.6 com above the floor. What was the elastic potential energy stored in the stretched band if, it has a horizontal displacement of 3.6 m from its initial...
  31. T

    Elastic potential energy of two blocks of mass

    Two blocks of masses M and 3M are placed on a horizontal, frictionless surface. A light spring is attached to one of them, and the blocks are pushed together with the spring between them. A cord initially holding the blocks together is burned; after this, the block of mass 3M moves to the right...
  32. S

    Elastic Potential Energy and the Spring Constant

    1) A 60 kg person drops from rest a distance of 1.20 m to a platform of negligible mass supported by a stiff spring. The platform drops 6 cm before the person comes to rest. What is the spring constant of spring? a.4.12E5-------b. 2.56E5---------c. 3.92E5--------d. 5.45E4----e. 8.83E4 I...
  33. G

    Question regarding Elastic Potential Energy

    Hey guys , I got another question , here goes : A particle P of mass m is attached to one end of a light elastic string of natural length l whose other end is atached to a point A on a ceiling. When P hangs in equilibrium AP has legth 5/3l. Show that if P is projected vertically downwards...
  34. I

    Calculating Elastic Potential Energy in a Vertical Spring System

    1.60 kg object is hanging from the end of a vertical spring. The spring constant is 48.0 N/m. The object is pulled 0.200 m downward and released from rest. Complete the table below by calculating the translational kinetic energy, the gravitational potential energy, the elastic potential energy...
  35. P

    Elastic Potential Energy and SHM test

    Hello, I took a test on Simple Harmonic Motion today and the very last problem looked something like this: A simple harmonic oscillator has a total energy of E. (a) Detemine the kinetic and potential energies when the displacement is one half the amplitude. (b) For what value of the...
  36. K

    Total Elastic Potential Energy 2

    I need to know how to go about finding the speed. A block B of mass 5 kg is fastened to one end of each of two springs. The other ends of the springs are attached to fixed points A and C, 4 metres apart on a smooth horizontal surface, as shown in the diagram. Spring AB has natural length...
  37. Z

    How to Calculate Total Elastic Potential Energy in a Spring System?

    This is not my problem, it's a friends but I have no idea how to tackle it: A block B of mass 5 kg is fastened to one end of each of two springs. The other ends of the springs are attached to fixed points A and C, 4 metres apart on a smooth horizontal surface, as shown in the diagram...
  38. T

    Find the maximum elastic potential energy of the spring

    A 2.0 kg mass is pressed against a spring (k = 800N/m) such that the spring has been compressed 0.22 m. The spring is released and the mass moves along a horizontal frictionless surface and up a frictionless slope. Calculate: a) the maximum elastic potential energy of the spring b) the maximum...
  39. Y

    Can a Compressed Spring Launch You Over a 15-ft Wall?

    There is a "cannon" that is a 3-ft diameter tube that is 12-ft. long with a stiff spring inside. The spring will be compressed to 1/10 its normal length and held. You will be on the spring. With perfect aim you will fly through the air over a 15-ft wall and land safely in a net. The spring is...
  40. V

    Springs / elastic potential energy / grav pot energy

    You are given an 8.00 kg box resting on a spring. The spring is compressed 7.0 cm by the box. (a) What is the spring constant? ____ N/cm (b) The box is pushed down an additional 30.0 cm and released. What is the elastic potential energy of the compressed spring just before that...
  41. P

    Elastic Potential Energy and spring

    Fasten one end of a vertical spring to the ceiling, attach a cabbage (or any other mass) to the other end, and then slowly lower this cabbage until the upward force on it due to the spring balances the gravitational force on it. 1. Show that the loss of gravitational potential energy of the...
  42. C

    How Does Compression Affect the Kinetic Energy of a Bowling Ball?

    Physics students are testing an old bed spring which is compressed 4cm when a force of 4 N is applied. This spring is secured to a wall and a bowling ball of 4kg is roled into it so that it hits at a speed of 2m/s 1. Calculate the compression of the spring when the speed of the ball has been...
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