If the energy of a photon is given by `E =(hc)/(lambda) ,` where h is the Plank's constant c is the velocity of light and `lambda` is the wavelength of the radiation then the unit of Planck's constant is `"______"`

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.

If the enrgy of a frequency v is gives by E = hv where h is plank's constant and the momentum of photon is p = h//lambda where lambda is the wavelength of photon , then the velocity of light is equal to

The energy of a photon is given by E = (hc)/(lambda) If lambda=4xx10^(-7 )m,the energy of photon is

If energy of photon is Eproph^(a)c^(b)lamda^(d) . Here h= Planck's constant c= speed of light and lamda= wavelength of photon Then, the value of a,b and d are

The energy of a photon of wavelength lambda is [ h = Planck's constant, c = speed of light in vacuum ]

The energy of a photon in eV of wavelength lambda nm will be

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

According to Planck's quantum theory of light, every source of radiation emits photons (i.e., packets of energy ) which travel in all directions with the same speed (i.e., speed of light). Each photon is of energy E=hv=hc//lambda , where h is Planck's constant, v is the frequency and lambda is wavelength of radiation emitted. The photons emitted from different sources of radiation are different. Read the above passage and answer the following questions: (i) on what factors does the number of photons emitted per second from a source of radiations depends? (ii) Why are the high energy photons not vissible to eye? (iii) Which basic values do you learn from this study?

The energy of a photon of wavelength lambda is given by