The period is the amount of time it takes for one complete cycle of a wave to occur. To calculate the period for a frequency of MHz (megahertz), you would use the formula: period = 1 / frequency. So, for MHz, the period would be in microseconds (1/1,000,000 seconds).
mhz ( megahertz) is a unit of frequency while seconds is a unit of time ,so normally they can't be converted to one another.But if you want to convert mhz to seconds (as in case of pendulum to find out the time period of the pendulum if frequency is provided) multiply the frequency by 106 (to convert mega hertz int hertz) and then take out the reciprocal of the quantity(as frequency=1/time period)
The time required for one complete vibration of an ultrasonic stethoscope operating at a frequency of 2.0 MHz can be calculated using the formula T = 1/f, where T is the period and f is the frequency. In this case, T = 1 / 2.0 MHz = 0.5 microseconds.
The frequency of the wave is the reciprocal of its period. Therefore, the frequency of a wave with a period of 9.26 ns is approximately 108 MHz (1 / 9.26 x 10^-9 seconds = 108 x 10^6 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.
That is the frequency of the G Sharp/A flat two octaves below middle C (great octave).
Let's take an example. Suppose that the intermediate frequency is 10,7 MHz (FM). The local oscillator works on 110,7 MHz. First case: You receive a signal of 100 MHz, the mixer will generate a frequency of 110,7 + 100 = 210,7 MHz, which will be rejected by the band-pass filter. The difference of the two frequencies is 110,7 - 100 = 10,7 MHz (desired one). Second case: You receive a signal of 121,4 MHz. The sum of that frequency and the local oscillator is 232,1 MHz, which will be rejected. The difference is 121,4 - 110,7 = 10,7 MHz. So the image frequency in that case is going to be 121,4 MHz.
A clock with a period of 1 ns has a frequency of 1 GHz, or 1000 MHz.
mhz ( megahertz) is a unit of frequency while seconds is a unit of time ,so normally they can't be converted to one another.But if you want to convert mhz to seconds (as in case of pendulum to find out the time period of the pendulum if frequency is provided) multiply the frequency by 106 (to convert mega hertz int hertz) and then take out the reciprocal of the quantity(as frequency=1/time period)
Since the 8085 has a maximum clock frequency of 6 MHz, increasing the crystal frequency from 5 MHz to 20 MHz, a corresponding clock frequency change of 2.5 MHz to 10 MHz, the chip would malfunction.
The operating frequency of 8085 is 3 mhz to 5 mhz
30 MHz to 300 MHz
The time required for one complete vibration of an ultrasonic stethoscope operating at a frequency of 2.0 MHz can be calculated using the formula T = 1/f, where T is the period and f is the frequency. In this case, T = 1 / 2.0 MHz = 0.5 microseconds.
GSM 900: Uplink frequency: 890 - 915 MHz GSM 1800 : Uplink frequency: 1710 - 1785 MHz GSM 1900: Uplink frequency: 1850 - 1910 MHz
A system bus frequency is 1600 MHz. A CPU frequency is 166 MHz to almost 4GHz.
30 Mhz - 300 Mhz
T1 Frequency is 1.544 MHz
The frequency of the wave is the reciprocal of its period. Therefore, the frequency of a wave with a period of 9.26 ns is approximately 108 MHz (1 / 9.26 x 10^-9 seconds = 108 x 10^6 Hz).