5 MHz = 1 second divided by 5.000.000
4.77 MHz = 1 second divided by 4.770.000
Wiki User
∙ 14y agoThe period of 1 MHz is 1 microsecond. The waveform is irrelevant.
477 is a not perfect square.
It is: 477/9 = 53
x + 8x = 477 9x = 477 x = 53
477 = 3 * 3 * 7
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).
The period of 1 MHz is 1 microsecond. The waveform is irrelevant.
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.
The frequency can't be 30 Mhz 30 Mhz is a ham radio frequency but to calculate the wavelength, devide 300 by the frequency in Mhz that will give you 10 meters (300/ƒ)
A clock with a period of 1 ns has a frequency of 1 GHz, or 1000 MHz.
To calculate the intermediate frequency (IF) for a radio receiver at 70 MHz, you typically choose a fixed IF value such as 455 kHz or 10.7 MHz. The IF frequency is chosen in such a way that when the desired signal frequency (70 MHz) is mixed with the local oscillator signal, it falls within the receiver's bandwidth for demodulation. This allows for effective filtering and processing of the signal at a manageable frequency before demodulation.
To convert MHz to seconds, you need to invert the frequency value. 1 MHz is equal to 1/1,000,000 seconds or 1 microsecond. So, to convert MHz to seconds, you would invert the MHz value. For example, if you have a frequency of 100 MHz, the equivalent value in seconds would be 1 / 100,000,000 seconds or 10 nanoseconds.
477
It is: 477/9 = 53
477 is a not perfect square.
he rating for RIMM memory is based on the maximum theoretical bandwidth (in MHz) and included speed ratings of 800 MHz, 1066 MHz, 1200 MHz, 1333 MHz, and 1600 MHz.
x + 8x = 477 9x = 477 x = 53