## Question

### Solution

Correct option is

According to the Broglie equation,

.

#### SIMILAR QUESTIONS

Q1

Calculate the kinetic energy of the electron eject when yellow light of frequency 5.2 × 1014 sec–1 falls on the surface of potassium metal. Threshold frequency of potassium is 5 × 1014 sec–1.

Q2

The threshold frequency v0 for a metal is 7.0 × 1014 s–1. Calculate the kinetic energy of an electron emitted when radiation of frequency v = 1.0 × 1015 s–1 hits this metal.

Q3

Calculate the wavelength of the spectral line obtained in the spectrum of Li2+ ion when the transition takes place between two levels whose sum is 4 and the difference is 2.

Q4

Calculate the wavelength of the radiation emitted when an electron in a hydrogen atom undergoes a transition from 4th energy level to the 2nd energy level. In which part of the electromagnetic spectrum does this line lie?

Q5

Calculate the velocity of electron in the first Bohr orbit of hydrogen atom. Given that

Planck’s constant, h = 6.626 × 10–34 Js,

mass of electron = 9.11 × 10–31 kg and

1 J = 1 kg m2s–2.

Q6

Calculate ionization energy of the hydrogen atom.

Q7

The ionisation energy of He+ is . Calculate the energy of first stationary state of Li2+.

Q8

The ionization energy of hydrogen in excited state is +0.85 eV. What will be the energy of the photon emitted when it returns to the ground state?

Q9

Calculate the wavelength associated with an electron

(mass 9.1 × 10–31 kg) moving with a velocity of 103 m sec–1

(h = 6.6 × 10–34 kg m2 sec–1)

Q10

Calculate the mass of a photon with wavelength 3.6 Å.