Simple harmonic motion lab report
Note that the positive direction is typically chosen to be the direction that the spring is stretched.
Various slotted masses. Figure The body will move back and forth between the positions and.
Simple harmonic motion mass spring system experiment
The computer timing devices shown in these figures are found on our physics lab web page Figure 11 and also in the Lab Programs folder found on the computer desk tops of each laboratory computer Figure The experimental setup Figure 6. Mass pan Figure 9. Therefore, the positive direction in this case is down and the initial position A in Fig. If the body in Figure 4 is displaced from its equilibrium position some maximum distance, , and then released, it will oscillate about the equilibrium position. By noting the time when the negative maximum, positive maximum, and zero values occur for the oscillating object's position, velocity, and acceleration, you can graph the sine or cosine function. Various hooked masses.
Figure 2: Five key points of a mass oscillating on a spring. Support stand and hook Figure 8. Various hooked masses.
Simple harmonic motion lab report course hero
Figure This is done for the case of the oscillating spring-mass system in the table below and the three functions are shown in Fig. Use the apparatus and what you know about oscillating spring-mass systems to determine the spring constant, , of your spring. This is a basic property of any object undergoing simple harmonic motion. The body will move back and forth between the positions and. Consider several critical points in a cycle as in the case of a spring-mass system in oscillation. Figure 2: Five key points of a mass oscillating on a spring. It should be noted that the period of motion is independent of the amplitude of the oscillations. Remember, do not suspend more than !
If the body in Figure 4 is displaced from its equilibrium position some maximum distance,and then released, it will oscillate about the equilibrium position.
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