Rubber Band Energy Equation

You will investigate the relationship between the potential energy and kinetic energy in this system by seeing how far the rubber band flies when it is stretched to different lengths.

Rubber band energy equation. W elastic potential energy in joules. This is equal to one half the mass of the rubber band multiplied by its velocity in. It can be stretched by up to a factor of 10 from its original length and when released returns very nearly to its original length. This can be repeated many times with no apparent degradation to the rubber.

When the rubber band is released the potential energy is quickly converted to kinetic energy. Spring potential energy example mistake in math our mission is to provide a free world class education to anyone anywhere. Once the rubber band is done unwinding the cart will slow down due to the kinetic energy of the cart transferring to dissipated thermal energy from friction. 1 where t is the temperature s is the tension u is the internal energy of the rubber band s is its entropy and l is its length.

Rubber band at rest and the energy it holds. Hopefully you said there s a lot of epe and no ke. Theoretical background the thermodynamic identity for a rubber band is du tdsþ sdl. Look at the following picture.

The cross linked polymers of a rubber band begin in a chaotic low energy tangled state. The energy the rubber band has stored is related to the distance the rubber band will fly after being released. Estimate the epe and ke before the student lets go of the rubber band. Construct use and present arguments to support the claim that when the kinetic energy of an object changes energy is transferred to or from the object.

When released the entropy rapidly increases until they tangle again compressing the rubber. 140 energy foundations for high school chemistry 2013 american chemical society lab tips various lab equipment items could be placed in the laboratory area to inspire students as they design their method in step 6 to test the stretch contraction of the rubber band as it is heated. When the rubber band is released the potential energy is quickly converted to kinetic motion energy. We introduce a rubber band experiment that uses maxwell relations to measure changes in entropy and internal energy.

Rubber is a member of a larger class of materials called elastomers and it is difficult to overestimate their economic and. When the bands are stretched the energy is increased and the polymers untangle until they reach a local maximum of their length and a local minimum of entropy. Elastic potential energy force x distance of displacement. F force in newtons.

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