In a Rutherford scattering experiment when a projectile of charge and mass approaches a target nucleus of charge and mass the distance of closest approach is . What is the energy of the projectile?
1. | Directly proportional to \(M_1 \times M_2\) |
2. | Directly proportional to \(Z_1Z_2\) |
3. | Inversely proportional to \(Z_1\) |
4. | Directly proportional to mass \(M_1\) |
In the nth orbit, the energy of an electron is \(\mathrm{E}_{\mathrm{n}}=-\frac{13.6}{\mathrm{n}^2} \mathrm{~eV}\) for the hydrogen atom. What will be the energy required to take the electron from the first orbit to the second orbit?
1. 10.2 eV
2. 12.1 eV
3. 13.6 eV
4. 3.4 eV
A beam of fast-moving alpha particles were directed towards a thin film of gold. The parts A', B', and C' of the transmitted and reflected beams corresponding to the incident parts A, B and C of the beam, are shown in the adjoining diagram. The number of alpha particles in:
1. | B' will be minimum and in C' maximum |
2. | A' will be maximum and in B' minimum |
3. | A' will be minimum and in B' maximum |
4. | C' will be minimum and in B' maximum |
When a hydrogen atom is raised from the ground state to an excited state:
1. | its P.E. increases and K.E. decreases. |
2. | its P.E. decreases and K.E. increases. |
3. | both kinetic energy and potential energy increase. |
4. | both K.E. and P.E. decrease. |
In Bohr's model if the atomic radius of the first orbit is r0, then what will be the radius of the third orbit?
1.
2.
3.
4.
The energy of a hydrogen atom in the ground state is \(-13.6~\mathrm{eV}\). What is the energy of a He+ ion in the first excited state?
1. -13.6 eV
2. -27.2 eV
3. -54.4 eV
4. -6.8 eV
An electron of a stationary hydrogen atom passes from the fifth energy level to the ground level. The velocity that the atom acquires as a result of photon emission will be:
(m is the mass of the hydrogen atom, R Rydberg constant and h Planck's constant)
1. \(\frac{24 h R}{25 m}\)
2. \(\frac{25 h R}{24 m}\)
3. \(\frac{25 m}{24 h R}\)
4. \(\frac{24 m}{25 h R}\)
A monochromatic radiation of λ=975 Å excites a hydrogen atom in its ground state. The number of spectral lines in the resulting spectrum emitted will be:
1. 3
2. 2
3. 6
4. 10
Considering the 3rd orbit of He+ (Helium ion), using the non-relativistic approach, the speed of the electron in this orbit will be: (Given: Z=2, K=9x109, and Planck's constant, h=6.6x10-34 J-s)
1. 2.92x108 m/s
2. 1.46x m/s
3. 0.73x108 m/s
4. 3.0x108 m/s
If an electron in a hydrogen atom jumps from the 3rd orbit to the 2nd orbit, it emits a photon of wavelength . What will be the corresponding wavelength of the photon when it jumps from the 4th orbit to the 3rd orbit?
1.
2.
3.
4.