The frequency of the oscillator would be 0.25 Hz (1 divided by 4). This means the oscillator completes one full cycle every 4 seconds.
Frequency = (1)/(period) .If the period is still 4 seconds, then the frequency = (1)/(4 seconds) = 0.25 per second = 0.25 Hz.
Frequency = 1/period = 1/0.25 = 4 Hz.
The period of the wave is 4 seconds, as it takes 4 seconds to complete one full cycle (rise and fall). The frequency of the wave is 0.25 Hz, as it completes two cycles (rises and falls) in 4 seconds. Frequency is the reciprocal of period, so 1/4 = 0.25 Hz.
This sounds like a homework question, so rather than doing your homework for you, I'll explain how to find the answer for yourself.The period and the frequency are very easy to find from the information provided. First, remember the definitions of period and frequency:Period is the amount of time per oscillation.Frequency is the number of oscillations per unit time.When you see the word "per" in these definitions, you should think division, because that is how you find the answer. When we say period is time per oscillation, this means time divided by oscillations. So your period is obtained by dividing the amount of time (in seconds) by the number of oscillations in that time. The units will make sense this way too: time divided by oscillations will give you a number that means seconds PER oscillation, which is what period is!Similarly, frequency is oscillations per time, so take the number of oscillations and divide it by the number of seconds it took. Your units will be oscillations per second, which makes sense for a measure of frequency.
A period can't be 4 Hz; those are the wrong units. If the period is 1/(4Hz), then the frequency is 4Hz. If the period is 4 seconds, then the frequency is 0.25 Hz. They are inversely related.
Frequency = (1)/(period) .If the period is still 4 seconds, then the frequency = (1)/(4 seconds) = 0.25 per second = 0.25 Hz.
Frequency = 1/period = 1/0.25 = 4 Hz.
The period of the wave is 4 seconds, as it takes 4 seconds to complete one full cycle (rise and fall). The frequency of the wave is 0.25 Hz, as it completes two cycles (rises and falls) in 4 seconds. Frequency is the reciprocal of period, so 1/4 = 0.25 Hz.
This sounds like a homework question, so rather than doing your homework for you, I'll explain how to find the answer for yourself.The period and the frequency are very easy to find from the information provided. First, remember the definitions of period and frequency:Period is the amount of time per oscillation.Frequency is the number of oscillations per unit time.When you see the word "per" in these definitions, you should think division, because that is how you find the answer. When we say period is time per oscillation, this means time divided by oscillations. So your period is obtained by dividing the amount of time (in seconds) by the number of oscillations in that time. The units will make sense this way too: time divided by oscillations will give you a number that means seconds PER oscillation, which is what period is!Similarly, frequency is oscillations per time, so take the number of oscillations and divide it by the number of seconds it took. Your units will be oscillations per second, which makes sense for a measure of frequency.
4 Hz
1/4 Hz.
A period can't be 4 Hz; those are the wrong units. If the period is 1/(4Hz), then the frequency is 4Hz. If the period is 4 seconds, then the frequency is 0.25 Hz. They are inversely related.
The frequency is the reciprocal of the period; in this case, divide 1 / 4x10-7.
1/4 Hertz or 1.4 per second.
The frequency of the wave is the reciprocal of the period, so in this case, it would be 1/4 Hz.
Time period = 1 / frequency. Frequency = 1 / time period.f = 1/4 = 0.25 Hz.
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.