Force on spring
[DOC File]FORCES
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Draw force diagrams of the object suspended from the combined springs and the same object suspended from the single replacement spring. Label the forces. Use Newton’s Third Law to identify forces on different diagrams that have the same magnitudes.
[DOC File]Chapter 1 Quick Review - Department of Physics
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A horizontal force F = 40 N is applied to the block, stretching the spring until it stops. Find the position of the block when it stops and that when its speed is maximum. 3. A 0.2 kg block is dropped onto a relaxed vertical spring of spring constant k = 300 N/m. The block sticks to the spring and compress the spring 0.20 m before it ...
[DOC File]SPRINGS - Hendrix College
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A large spring constant means the restoring force is large for a given displacement, i.e. it is harder to stretch. The stiffness of a spring can be measured by attaching weight to a vertically hung spring, and measuring its stretch. At some point the spring will cease to obey Hooke's law, and will instead become permanently deformed.
[DOC File]Hooke’s Law Lab
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A convenient way to apply a precisely-known force is to let the weight of a known mass be the force used to stretch the spring. The force can be calculated from W = mg. The stretch of the spring can be measured by noting the position of the end of the spring before and during the application of the force. Equipment: PhET Simulation Masses and ...
[DOC File]FORCES
https://info.5y1.org/force-on-spring_1_6fd86a.html
Draw force diagrams of both spring systems and the equivalent single spring system. Label the forces. For the end-to-end configuration, draw an additional force diagram of a point at the connection of the two springs. 3. Apply Newton's laws to the object suspended from the combined springs and the object suspended from the single replacement ...
[DOC File]Springs and Hooke's Law
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The ratio of the change in applied force ( F) and the change in the resulting displacement ( x) is called the . spring constant (k) and can be written as follows: k = (2) Today’s experiment will test this relationship for a large spring. By hanging different masses from the spring we can control the amount of force acting on it.
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