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26 March, 01:58

Select the stopwatch, and time how long it takes for a weight to oscillate back and forth 10 times (a single oscillation is represented by a return to a weight's original position). The period of oscillation T is this time divided by 10. The frequency of oscillation is 1/T. How does the frequency of oscillation depend on the value of the mass?

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  1. 26 March, 02:13
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    The mass in inversly proportional to the frequency of oscillation. The formula for the frequency of oscillation is

    f = 1/2pie SQRT (k/m)

    This formula shows that mass is inversly proportional to frequency, that means if the mass increases frequency will decrease.
  2. 26 March, 02:19
    0
    The frequency decreases as the mass increases.
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