3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.
3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.
3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.
3 cycles / 12 seconds = 0.25 cycles / second, or 0.25 Hz.
The wave has been offset from zero by 0.005 seconds
Frequncy is the speed of an electrical wave through a conducting material.for example a wave of frequency 50 Hz takes 20 milli seconds(1/50) to complete one cycle.
The frequency is 300/30 = 10 Hz The time period is 30/300 = 0.10 seconds
The period of a waveform is the reciprocal of its frequency. To find the period (T) in seconds, you can use the formula ( T = \frac{1}{f} ), where ( f ) is the frequency in hertz. For a frequency of 4 MHz (4,000,000 Hz), the period is ( T = \frac{1}{4,000,000} ) seconds, which equals 250 nanoseconds (ns). Therefore, the period of a 4 MHz clock waveform is 250 ns.
f=1/T so f = 1/.025 =40Hz
Frequency = (1)/(period) .If the period is still 4 seconds, then the frequency = (1)/(4 seconds) = 0.25 per second = 0.25 Hz.
The frequency of a pendulum is the reciprocal of its period, so a pendulum with a period of 40 seconds will have a frequency of 0.025 Hz.
The frequency is the reciprocal of the period. In other words, divide 1 by the period. If the period is in seconds, the frequency is in hertz.
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)
if the cycle lasts 5 seconds, then the frequency is 0.2 Hz
The period is the reciprocal of frequency, so for a frequency of 440 Hz, the period would be 1/440 seconds, which is approximately 0.00227 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.
The reciprocal of the frequency. Since hertz basically means "1 / seconds", this reciprocal is in 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.
Time (seconds) = 1/Frequency (Hz) = 1/120 = 0.00834 seconds.
16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.16 wave crests in 8 seconds is the same as 2 per second. 2 is the frequency - 2 Hertz, to be precise.
since the period is the reciprocal of frequency, the period is 1/10 seconds.