What is the ratio of the time period of revolution of electron He+ ion sample in the orbit where the path length is three time the de-broglies wavelength to the time period of revolution in the ground state –
1. 27:1
2. 1:27
3. 9:8
4. 8:9
The ratio of the wavelengths of the last lines of the Balmer and Lyman series is:
1. 4:1
2. 27:5
3. 3:1
4. 9:4
The energy of the emitted photon when an electron in ion returns from n=2 level to the ground state is
1. 2.616 x 10-17J
2. 26.16 x 10-17J
3. 261.6 x 10-18J
4. 2616 x 10-17J
The accelerating potential to be imparted to a beam of electrons to give an effective wavelength of 2.42 nm is
1. 2.56V
2. 3.42V
3. 0.256V
4. 0.342V
The splitting of spectral lines in a magnetic field, arising out of the orbital motion of electrons only and the further splitting due to spin motion are respectively called
1. Zeeman and Stark effects
2. Zeeman and anomalous Zeeman effects
3. Stark and Zeeman effects
4. Zeeman and Kerr effects
A photon of wavelength 300 nm causes the emission of two photons. If the wavelength of one of them is 700 nm. What is the wavelength of the other photon?
1. 525 nm
2. 600 nm
3. 450 nm
4. 300 nm
The electronic transition in the hydrogen atom that emits maximum energy is:
1. 2 1
2. 1 4
3. 4 3
4. 3 2
The spectrum of He-atom may be considered similar to the spectrum of -
1. H
2. Li+
3. Na
4. He+
The frequency ratio between violet (400nm) and red (750nm) radiations in the visible spectrum, is-
1. 8/15
2. 4/15
3. 15/8
4. None of these
The Compton wavelength for an electron is
0.024 Å
calculate = (1- cos θ) for a scattering angle θ = /3. What is the maximum value for ?
1. 0.024 Å, 0.048 Å
2. 0.012 Å, 0.048 Å
3. 0.012 Å, 0.024 Å
4. 0.006 Å, 0.012 Å