Planck's Equation Energy=hf where h is Planck's Constant and f is the frequency.
Energy/frequency or energy*wavelength/speed of light.
Planck's Konstant
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.
The ones with the highest frequency.
Yes. The Fourier transform of a signal to the frequency domain will give rise to a graph that has energy (is greater than zero) at only the base frequency and its harmonics.
spectrum of sinewave contains how many components The spectrum of a pure sine wave by definition has only one component. Any other periodic wave will additional components at multiples of the fundemental frequency. The spectrum may or may not extend to infinity. A square wave for example has infinite harmonics, the harmonics of a 'modified sine wave' inverter has lower harmonics than a square wave but still has infinite harmonics. As you get closer to a pure sinusiod the energy content of the higher harmonics will be essentially non existent. It all depends how close the wave approximates a pure sinusoid.
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The photon energy is directly proportional to its frequency: Energy = Planck's constant * frequency.
Yes
Higher frequency increases the energy. Lower frequency decreases the energy.
High frequency waves will have more energy than low-frequency waves. This is because energy is directly proportional to frequency in waves - the higher the frequency, the higher the energy.
the higher the frequency the higher the energy
The energy of a photon depends on its frequency or wavelength. The energy is directly proportional to the frequency of the photon, meaning that higher frequency photons have higher energy levels.
High energy is high frequency.
Energy of light photons is related to frequency as Energy = h(Planck's constant)* frequency Frequency = velocity of wave / wavelength So energy = h * velocity of the wave / wavelength
Frequency and energy of waves are related in that waves with higher frequency have higher energy. This is because energy of a wave is directly proportional to its frequency, as determined by the equation E = hf, where E is energy, h is Planck's constant, and f is frequency. Therefore, waves with higher frequency carry more energy.