Given the value of rydberg constant is 10 m^{-1}, the wave number of the last line of the Balmer series in hydrogen spectrum will be:
0.5 x 10^{7} m^{-1}
0.25 x 10^{7} m^{-1}
2.5 x10^{7 }m^{-1}
2.5 x10^{7 }m^{-1}
The ratio of escape velocity at earth (V_{e}) to the escape velocity at a planet (v_{p}) whose radius and mean density are twice as that of earth is,
1:
1:4
1:
1:
Consider 3^{rd} orbit of He^{+} (Helium)_{,} using non-relativistic approach, the speed of electron in this orbit will be (given K= 9 x 10^{9} constant, Z=2 and h (Planck's constant = 6.6 x 10^{-34} Js^{-1}
2.92 x 10^{6} m/s
1.46 x 10^{6} m/s
0.73 x 10^{6} m/s
0.73 x 10^{6} m/s
A proton carrying 1 MeV kinetic energy is moving in a circular path of radius R in the uniform magnetic field. What should be the energy of an alpha particle to describe a circle of the same radius in the same field.
2 MeV
1 MeV
0.5 MeV
0.5 MeV
The transition from the state n = 3 to n=1 in a hydrogen-like atom results in ultraviolet radiation. Infrared radiation will be obtained in the transition from.
2→ 1
3 →2
4 → 2
4 → 2
An electron in hydrogen atom first jumps from third excited state to second excited state and then from second excited to the first excited state. The ratio of the wavelengths λ_{1}:λ_{2} emitted in the two cases is
7/5
27/20
27/5
27/5
An electron of a stationary hydrogen atom passes from the fifth energy level to ground level. The velocity that the atom acquired as a result of photon emission will be
A.
Hydrogen atom in ground state is excited by a monochromatic radiation of . The number of spectral lines in the resulting spectrum emitted will be,
3
2
6
6
The wavelength λ_{e} of an electron and λ_{p} of a photon of same energy E are related by
A certain mass of hydrogen is changed to helium the process of fusion. The mass defect in fusion reaction is 0.02866 u. The energy liberated per u is (given 1 u =931 MeV)
2.67 MeV
26.7 MeV
6.675 MeV
6.675 MeV