The period is the duration of one cycle in a repeating event, so the period T is the reciprocal of the frequency f. T = 1 / f. The period is 0.001 second, that is 1 millisecond.
1/1000
1
The period of a 1000 Hz signal is the time it takes to complete one cycle or revolution of the signal. The formula to calculate the period from the frequency is: T=frac1f where T is the period in seconds and f is the frequency in Hertz. Plugging in the given frequency of 1000 Hz, we get: T=frac11000 T=0.001 Therefore, the period of a 1000 Hz signal is 0.001 seconds or 1 millisecond. This means that one cycle of the signal repeats every 1 millisecond. You can also use this online calculator to convert between frequency and period.
It means that there is a base wave, and that the frequency is changed to transmit a signal. For example, if you want to transmit a signal representing a 1000 Hz sound, the frequency of the base wave would be increased and decreased a thousand times in a second.
The familiar formula for finding the speed of wave right from its frequency and wavelength is c = nu lambda. nu is the frequency and lambda is the wavelength. So in this case speed of sonar signal = 1000 x 1.5 = 1500 m/s.
There is none. The frequency and time are reciprocals of one another. That is a time period of 1/1000th of a second is a frequency of 1000 hertz.
I assume that a "solar signal" means light. Light moves at approximately 262 million meters per second in water, regardless of the frequency or wavelength of the light. Also, if light has a frequency of 1000 Hz, then it has a wavelength of 300 kilometers. The speed of light, c, is equal to the product of the frequency and the wavelength. In other words, c=f*w
T=1/f T=1/1000 T=1*10-3
The period of a 1000 Hz signal is the time it takes to complete one cycle or revolution of the signal. The formula to calculate the period from the frequency is: T=frac1f where T is the period in seconds and f is the frequency in Hertz. Plugging in the given frequency of 1000 Hz, we get: T=frac11000 T=0.001 Therefore, the period of a 1000 Hz signal is 0.001 seconds or 1 millisecond. This means that one cycle of the signal repeats every 1 millisecond. You can also use this online calculator to convert between frequency and period.
Period = 1 / frequency = 0.001 second.
If the first harmonic of 1 kHz is 2 kHz, then the second harmonic is the odd order harmonic of 3 kHz.
Period = 1/frequency = (1/1,000) = 0.001 second
It means that there is a base wave, and that the frequency is changed to transmit a signal. For example, if you want to transmit a signal representing a 1000 Hz sound, the frequency of the base wave would be increased and decreased a thousand times in a second.
The familiar formula for finding the speed of wave right from its frequency and wavelength is c = nu lambda. nu is the frequency and lambda is the wavelength. So in this case speed of sonar signal = 1000 x 1.5 = 1500 m/s.
There is none. The frequency and time are reciprocals of one another. That is a time period of 1/1000th of a second is a frequency of 1000 hertz.
A clock with a period of 1 ns has a frequency of 1 GHz, or 1000 MHz.
I assume that a "solar signal" means light. Light moves at approximately 262 million meters per second in water, regardless of the frequency or wavelength of the light. Also, if light has a frequency of 1000 Hz, then it has a wavelength of 300 kilometers. The speed of light, c, is equal to the product of the frequency and the wavelength. In other words, c=f*w
0.181 hertz. Are you sure about it being 1000 milliseconds? That is one second. Crystal is spelled crystal.
It is meaningless. A kilogram is a measure of mass. Frequency is a measure of events through time. -firstmate-