Find the dimensions of Planck's constant h from the equatioin `E=hv` where E is the energy and v is the frequency.

Find the dimensional formula for Planck's constant (h).

The dimension of the physical quantity alpha in the equation. E = V alpha . Where E is the energy and V is voulume has same dimesion as of

Write the dimensions of a xx b in the relation E = ( b - x^(2))/( at) , where E is the energy , x is the displacement , and t is the time.

The dimension of E/H is that of

The dimensions of h//e ( h= Plank's constant and e= electronic charge ) are same as that of

A photon has an energy where h is the Planck's constant, v is the frequency of radiation, lamda is the wavelength of radiation, and c is the velocity of light.

Find the momentum of a wavelength 0.03Å if planck's constant is h.

The Quantum Hall Resistance R_(H) is a fundamental constant with dimensions of resistance. If h is Planck's constant and e the electron charge, then the dimension of R_(H) is the same as

We may state that the energy E of a photon of frequency v is E =hv, where h is a plank's constant. The momentum p of a photon is p=h//lambda where lambda is the wavelength of the photon. From the above statement one may conclude that the wave velocity of light is equal to

The stopping potential for photoelectrons from a metal surface is V_(1) when monochromatic light of frequency upsilon_(1) is incident on it. The stopping potential becomes V_(2) when monochromatic light of another frequency is incident on the same metal surface. If h be the Planck’s constant and e be the charge of an electron, then the frequency of light in the second case is: