Well, it's not really a v, it's a Greek lowercase nu, which happens to look a lot like a lowercase Latin v.
It means that the energy of a photon is equal to Planck's constant multiplied by the photon's frequency.
how electron wave frequencies correspond to specific energies.
1. hv=hvo + 1/2mvo2here h= plank's constantv= cut off wavelengthvo=cut off frequencym= massvo=stopping potential
I'll give you the equation and you can do the math yourself.E=hv, where E is energy, h is Planck's constant, and v (really a Greek letter nu) is frequency.
From the equation E=hv where h= plank's constant v=frequency and ultraviolet waves has more frequency than radio waves hence ultraviolet waves have more energy.
More than doubled. The stopping voltage is the photon energy minus the work function: hv - W Doubling the photon energy creates a new stopping voltage of: 2 hv - W > 2 (hv - W)
how electron wave frequencies correspond to specific energies.
Because the equation helps describe the relationship between waves and energy.
Max Planck
The equation is (x - h)2 + (y - v)2 = r2
E = hv Where h is the Planck's constant v is the frequency of the photon and E is the energy of the photon
57 H V - hienz varities
What is fullform of hv
This is called the 'standard form' for the equation of a parabola:y =a (x-h)2+vDepending on whether the constant a is positive or negative, the parabola will open up or down.
Before you can do anything with kinetic energy, you must know the kinetic energy equation. The equation for kinetic energy KE=hv-hv0.
what do you mean repair hv winding whats wrong with it
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1. hv=hvo + 1/2mvo2here h= plank's constantv= cut off wavelengthvo=cut off frequencym= massvo=stopping potential