The period is the reciprocal of the frequency, in this case, 1/250 second.
The sine wave at low frequency is unstable because it can create strong currents that nobody can stop them from
we cannot use transformer because transformer cannot change frequency . . .
The phase angle varies from 0 to 360 degrees as the wave cycles.
Should be a sine ( or cosine) wave.
The sine wave represents 360 degrees or a full circle. As the satellite revolves 360 degrees around the earth in its orbit this is how it is represented on a flat surface.
The period of an 8000 Hz sine wave is 0.125 milliseconds. (1/8000)
The period of a 15MHz sine wave is 1 / 15MHz, or 0.066667 us, or 66 2/3 ns.
The period is 1 millisecond.
10 Hz
To find the equation of a sine wave, you need to know the amplitude, period, and phase shift of the wave. The general form of a sine wave equation is y Asin(B(x - C)), where A is the amplitude, B is the frequency (related to the period), and C is the phase shift. By identifying these values from the given information or graph, you can write the equation of the sine wave.
The period of 1GHz is 1 ns. The waveform is irrelevant.
It is 1/810,000 = 0.00000123456790123456790... recurring.
Period = 1 / frequency = 1/272 = 0.003676 second (rounded)
1 divided by 100,000,000.00 in sec
the length of time it takes to complete one cycle
The period of 1 MHz is 1 microsecond. The waveform is irrelevant.
The period of a sine wave is the reciprocal of the frequency. So, if the time period is 2.5 microseconds, the frequency would be 1 / 2.5 microseconds, which is 400 kHz.