Period = (1/frequency) = 1/104 = 10-4 = 0.0001 second = 0.1 millisec = 100 micro sec.
10 Hz
2 x 10 to power 6 cycles in 1 sec. Period is (1) / (2 x 10 to power 6) = (0.5) x (10 to the power -6) = 0.5 microseconds
Period = 1/FrequencySo if we set Frequency = x THEN:10 = 1/x10x = 1x = 1/10IF Period of a Wave is 10 Seconds THEN The Frequency =1/10 or .10
Frequency = 1/period1/7.5 x 10-3 = 1331/3 Hz = 2/15 KHz
If you mean a wave that has a frequency of 10 hz at 360 m/s, then the answer is 1/36 of a second. The period is the inverse of the wavelength and the wavelength is equal to the wave speed divided y the frequency. 360/10=36 and the inverse of 36 is 1/36.
10 Hz
frequency of 10 hertz
The length of a radio wave at 900 kHz is 3331/3 meters, or about 1093.6 feet.
2 x 10 to power 6 cycles in 1 sec. Period is (1) / (2 x 10 to power 6) = (0.5) x (10 to the power -6) = 0.5 microseconds
For a sine wave, the RMS is the amplitude divided by square root of 2. The amplitude is 10 cm. in this case; so the exact value is 10 / root(2), or about 7.For a sine wave, the RMS is the amplitude divided by square root of 2. The amplitude is 10 cm. in this case; so the exact value is 10 / root(2), or about 7.For a sine wave, the RMS is the amplitude divided by square root of 2. The amplitude is 10 cm. in this case; so the exact value is 10 / root(2), or about 7.For a sine wave, the RMS is the amplitude divided by square root of 2. The amplitude is 10 cm. in this case; so the exact value is 10 / root(2), or about 7.
Well, a pure sine wave can only be produced as a pure sine wave. If it was modified to begin with, it would never be a pure sine wave. However, an actual generator should be supplying pure sine wave output, while something such as an inverter would be producing a modified sine wave.
BW = (1 MHz - 10 KHz) = (1,000 KHz - 10 KHz) = 990 KHz
5 cycles.
Period = 1/FrequencySo if we set Frequency = x THEN:10 = 1/x10x = 1x = 1/10IF Period of a Wave is 10 Seconds THEN The Frequency =1/10 or .10
Frequency = 1/period1/7.5 x 10-3 = 1331/3 Hz = 2/15 KHz
The definiton of period (T) Is T = 1/f ; Therefore if you know that the period is 2.5 microseconds (=2.5 x 10-6) then the frequency is f=1/(2.5x10-6)= 4 x 105 Hz
10-1 sec