Question

State it laws and derive these law's form Einstein's photo electric equations​

Answer 1

The phenomenon of emission of electrons from a metal surface, when electromagnetic radiations of sufficiently high frequency are incident on it, is called the photoelectric effect.

Einstein explained the photoelectric effect based on Planck's quantum theory according to which light radiation travels in the form of discrete photons. The energy of each photon is

hv

hv

, where

h

h

is Planck's constant and

v

v

is the frequency of light.

The main points of Einstein’s theory of the photoelectric effect are:

The interaction between two particles results in photoelectric emission– one a photon of incident radiation and the other an electron of photosensitive metal.

The free electrons are bound within the metal due to restraining forces on the surface. The minimum energy required to liberate an electron from the metal surface is called the work function

W ∘

W∘

of the metal.

Each photon interacts with one electron. The energy

hv

hv

of the incident photon is used up in two parts:

A part of the energy of the photon is used in liberating the electron from the metal surface, which is equal to the work function

W ∘

W∘

of the metal, and

The remaining energy of the photon is used in impairing kinetic energy to the ejected electron.

Very few (<1%) photons, whose energies are greater than

W ∘

W∘

, capable of ejecting the photons.

By law of the conservation of energy,

Energy of the incident photon = Maximum K.E. of photon + Work function

hv=

1

2

m

v 2

max

+

W ∘

∴

K

max

=

1

2

m

v 2

max

=hv−

W ∘

⋯⋯⋯⋯

(

hv=12mvmax2+W∘∴Kmax=12mvmax2=hv−W∘⋯⋯⋯

If the incident photon is threshold frequency

v ∘

v∘

, then its energy

h

v ∘

hv∘

is just sufficient to free the electron from the metal surface and does not give it any kinetic energy. So

h

v ∘

=

W ∘

hv∘=W∘

. Hence

K

max

=

1

2

m

v 2

max

=hv−h

v ∘

=h

(

v−

v ∘

)⋯

Kmax=12mvmax2=hv−hv∘=h(v−v∘)⋯⋯⋯(2)

Equations (1) and (2) are called Einstein’s photoelectric equations.

Note: Photoelectric emission is the result of an elastic collision between a photon and an electron. Thus the absorption of energy from a photon by a free electron inside the metal is a single event that

involves the transfer of energy in one lump instead of the continuous absorption of energy as in the wave theory of light.

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