EPE and F=ke

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    tasha 2/3

    Cards (13)

    • What are the two equations related to elasticity that are discussed in the video?
      F = ke and elastic potential energy = 1/2 ke^2
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    • What does the variable K represent in the equation F = ke?
      K represents the spring constant, which measures how firm or elastic the object is.
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    • How does a lower spring constant affect an object's elasticity?
      A lower spring constant means the object is more elastic and easier to stretch.
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    • What does the equation for elastic potential energy represent?
      It represents the energy transferred to an object as it is stretched.
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    • What is the formula for elastic potential energy?
      Elastic potential energy = 1/2 ke^2
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    • What happens to the energy used to stretch a spring when it is released?
      The energy is transferred back out to a different form, such as kinetic energy.
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    • If a spring has a natural length of 0.6 meters and stretches to 0.8 meters when a force is applied, how do you find the extension?
      By subtracting the natural length from the stretched length, giving 0.2 meters.
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    • How do you calculate the spring constant using the force and extension?
      By rearranging F = ke to get K = F/e.
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    • If a force of 14 Newtons causes a spring to extend by 0.2 meters, what is the spring constant?
      The spring constant is 70 Newtons per meter.
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    • How do you calculate the elastic potential energy of a spring with a spring constant of 70 N/m and an extension of 0.2 m?
      By using the formula elastic potential energy = 1/2 ke^2, which gives 1.4 joules.
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    • What does the gradient of a force versus extension graph represent?
      The gradient represents the spring constant of the spring.
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    • What does the area under the curve in a force versus extension graph represent?
      The area under the curve represents the elastic potential energy transferred to the spring.
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    • What is the elastic limit in the context of Hooke's law?
      The elastic limit is the point where the object stops obeying Hooke's law.
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