In the case of electromagnetic wave, the energy of a photon is directly proportional to the frequency. For other types of waves, the situation may be different.
Time of period=1/frequency
the higher the frequency the higher the energy
the higher the frequency, the higher the energy
For any wave, frequency x wavelength = speed of the wave.
the higher the energy, the higher the frequency
the relation between frequency and time period is ''t=1/f''
Frequency = 1 / period
Time of period=1/frequency
frequency = speed of light/wavelength
yes!
voltage and frequency both are different quantity.. don't mix it...
the lower the frequency the lower the pitch; higher pitch lower frequency
the higher the frequency the higher the energy
There is no factual relation between these, but there is a common rule known as the Nyquist-Shannon theorem, that states that to reproduce a waveform with only reasonably errors, the sampling frequency must be at least twice the wave frequency.
The energy of a basic unit of electromagnetic energy, the photon, is related directly to its frequency by a scaling factor called Planck's Constant, and the equation is often written e = Hf where e is energy unit, H is Planck's Constant and f is frequency unit.
they are both electron pulsing at different frequency regions per the Planck relation E= nhf where n is anthropic- required to be constant at n = 1/h, making energy always numerically equal to frequency.
the higher the frequency, the higher the energy