Potential Energy is stored in a compressed spring
True
False
Answer
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Hint: Whenever spring is stretched or compressed, Work is done when and the elastic potential energy is stored in the spring. According to Hooke's rule, the force required to stretch the spring will be directly proportional to the amount of stretch.
Complete Step by step answer: Yes Potential energy is stored in a compressed spring as the Elastic potential energy is the potential energy resulting from the deformation of an elastic object, such as the stretch of a spring. This is equivalent to the work done to stretch the spring, which depends on the expansion of the spring constant k as well as the distance. According to Hooke's rule, the force required to stretch the spring will be directly proportional to the amount of stretch.
Additional information: Elastic potential energy is the potential energy storage capacity which is the result of the deformation of a simple, such as stretching spring. It is equivalent to the work done to stretch the spring, which depends on the spring constant k according to the distance. According to Hooke's law, the force required to stretch the spring must be directly applied to the stretching material. Since the force of an object between two positions is equal to the work function required to move the object from one point to another, calculating the work done is equal to the energy.
Notes:When inelastic deformation has not occurred, the work done is equal to the accumulated elastic potential energy. The work can also be visualized as the area under the force curve. The energy is stored until the energy is removed and the material returns to its original form.
Complete Step by step answer: Yes Potential energy is stored in a compressed spring as the Elastic potential energy is the potential energy resulting from the deformation of an elastic object, such as the stretch of a spring. This is equivalent to the work done to stretch the spring, which depends on the expansion of the spring constant k as well as the distance. According to Hooke's rule, the force required to stretch the spring will be directly proportional to the amount of stretch.
Additional information: Elastic potential energy is the potential energy storage capacity which is the result of the deformation of a simple, such as stretching spring. It is equivalent to the work done to stretch the spring, which depends on the spring constant k according to the distance. According to Hooke's law, the force required to stretch the spring must be directly applied to the stretching material. Since the force of an object between two positions is equal to the work function required to move the object from one point to another, calculating the work done is equal to the energy.
Notes:When inelastic deformation has not occurred, the work done is equal to the accumulated elastic potential energy. The work can also be visualized as the area under the force curve. The energy is stored until the energy is removed and the material returns to its original form.
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