Frequency is 1 divided by the time required for each cycle.
The period required to complete one cycle of an operation or to complete a function, job, or task from start to finish. Cycle time is used in differentiating total duration of a process from its run time
period
Period = 1/frequency = 1/2 x 106 = 1/2 microsecond
Period
There are two basic characteristics of harmonic motion: amplitude and frequency. Frequency can be looked at in a couple of ways. One is the number of cycles in a given unit of time (like cycles per second), and the other is the length of time it takes for one complete cycle of the motion, the period (like seconds per cycle). As the frequency increases, the time it takes for one cycle decreases. If there are more cycles per unit time, then it will take less time per cycle of the motion. That's an important concept. The two are inversely proportional. For a given motion, if its frequency doubles, then it takes half as long for one of the cycles to occur. The period is cut in half because the frequency had doubled. Following that logic, if the frequency of a harmonic motion is tripled, the period will be one third the period of the original motion.
1/120 seconds!
period.
The time it takes to complete one cycle of a signal is called one period. For example, if the signal has a frequency of one hertz (one cycle per second), the period would be 1 second. A two hertz frequency would mean a ½ second period, or ½ second to complete one cycle.
The period required to complete one cycle of an operation or to complete a function, job, or task from start to finish. Cycle time is used in differentiating total duration of a process from its run time
time(seconds)=1/frequency(Hz) time=1/50 =0.02 seconds for 1 cycle
period
Such is called the period of the wave. The period is the reciprocal of the frequency.
Period = 1/frequency = 1/2 x 106 = 1/2 microsecond
the frequency is 1 divided by the cycle time, or 1/100 microseconds = 10,000 cycles per second
Period
1kHz
There are two basic characteristics of harmonic motion: amplitude and frequency. Frequency can be looked at in a couple of ways. One is the number of cycles in a given unit of time (like cycles per second), and the other is the length of time it takes for one complete cycle of the motion, the period (like seconds per cycle). As the frequency increases, the time it takes for one cycle decreases. If there are more cycles per unit time, then it will take less time per cycle of the motion. That's an important concept. The two are inversely proportional. For a given motion, if its frequency doubles, then it takes half as long for one of the cycles to occur. The period is cut in half because the frequency had doubled. Following that logic, if the frequency of a harmonic motion is tripled, the period will be one third the period of the original motion.