The frequency of a wave is the reciprocal of its period, so if the period is 6 seconds, then the frequency is 1/6 Hz.
The frequency of a wave is the reciprocal of its period. So, if the period of the wave is 5 seconds, the frequency would be 1/5 Hz, which is 0.2 Hz.
The period of a wave can be calculated as the inverse of its frequency. In this case, the period would be 1/250 seconds, which is equal to 0.004 seconds.
The period of a wave is the reciprocal of its frequency. Therefore, for a wave with a frequency of 16.1 Hz, the period can be calculated as 1/16.1 = 0.0621 seconds.
Period = 1/Frequency = 0.00175 seconds (approx)Period = 1/Frequency = 0.00175 seconds (approx)Period = 1/Frequency = 0.00175 seconds (approx)Period = 1/Frequency = 0.00175 seconds (approx)
Frequency of a wave is how many times a wave passes through by the setting of number of seconds.
The frequency of a wave is the reciprocal of its period, so if the period is 6 seconds, then the frequency is 1/6 Hz.
0.1 seconds
The frequency of a wave is the reciprocal of its period. So, if the period of the wave is 5 seconds, the frequency would be 1/5 Hz, which is 0.2 Hz.
The period of a wave can be calculated as the inverse of its frequency. In this case, the period would be 1/250 seconds, which is equal to 0.004 seconds.
The period of a wave is the reciprocal of its frequency. Therefore, for a wave with a frequency of 16.1 Hz, the period can be calculated as 1/16.1 = 0.0621 seconds.
Assuming that seconds refers to the period, the frequency is the reciprocal (1 / period in seconds). The height of the wave is irrelevant in this case.
Period = 1/78.6 seconds = 0.01272 seconds
Period = 1/Frequency = 0.00175 seconds (approx)Period = 1/Frequency = 0.00175 seconds (approx)Period = 1/Frequency = 0.00175 seconds (approx)Period = 1/Frequency = 0.00175 seconds (approx)
.05 seconds
To find the frequency, divide the number of wave crests (10) by the total time (15 seconds): Frequency = 10 wave crests / 15 seconds = 0.67 Hz or 2/3 Hz.
The frequency of a 10 wave crest in 15 seconds would be 0.67 Hz. This is calculated by dividing the number of wave crests (10) by the time taken (15 seconds).