It depends on the specific context and the parameters of the oscillation. oscillation in 30 seconds. More information is needed to provide a precise answer.
The unit of oscillation period is seconds (s).
The period of oscillation is the time taken for one complete oscillation. The frequency of oscillation, f, is the reciprocal of the period: f = 1 / T, where T is the period. In this case, the period T = 24.4 seconds / 50 oscillations = 0.488 seconds. Therefore, the frequency of oscillation is f = 1 / 0.488 seconds ≈ 2.05 Hz.
The time taken for one complete oscillation is called the period. It is typically measured in seconds.
The time period of each oscillation is the time taken for one complete cycle of the oscillation to occur. It is typically denoted as T and is measured in seconds. The time period depends on the frequency of the oscillation, with the relationship T = 1/f, where f is the frequency of the oscillation in hertz.
A typical grandfather clock can complete one full oscillation, or swing back and forth, in about two seconds. The length of the pendulum and the design of the clock's mechanism can slightly affect the exact time for one oscillation.
The unit of oscillation period is seconds (s).
The period of oscillation is the time taken for one complete oscillation. The frequency of oscillation, f, is the reciprocal of the period: f = 1 / T, where T is the period. In this case, the period T = 24.4 seconds / 50 oscillations = 0.488 seconds. Therefore, the frequency of oscillation is f = 1 / 0.488 seconds ≈ 2.05 Hz.
The SI unit for period is seconds and the symbol is t (because the period is a time measurement, it is expressed in the SI unit seconds)
The time taken for one complete oscillation is called the period. It is typically measured in seconds.
1 minute and 30 seconds
a minute and 30 seconds
The time period of each oscillation is the time taken for one complete cycle of the oscillation to occur. It is typically denoted as T and is measured in seconds. The time period depends on the frequency of the oscillation, with the relationship T = 1/f, where f is the frequency of the oscillation in hertz.
The period of a simple pendulum of length 20cm took 120 seconds to complete 40 oscillation is 0.9.
30000 milli seconds. Calculation: 1 sec = 1000 milisecs 30 sec = 30 * 1000 millisecs.
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Time period per oscillation=32/ 20=1.6 sec per oscillation.
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