In Bohr model of hydrogen atom, the ratio of periods of revolution of an electron in n =2 and n = 1 orbits is
(1) 2 : 1
(2) 4 : 1
(3) 8 : 1
(4) 16 : 1
1. | \(\dfrac{25}{9}\) | 2. | \(\dfrac{17}{6}\) |
3. | \(\dfrac{9}{5}\) | 4. | \(\dfrac{4}{3}\) |
The electron in a hydrogen atom makes a transition from an excited state to the ground state. Which of the following statements is true
1. | Its kinetic energy increases and its potential and total energies decrease |
2. | Its kinetic energy decreases, potential energy increases and its total energy remains the same |
3. | Its kinetic and total energies decrease and its potential energy increases |
4. | Its kinetic, potential and total energies decreases |
The ratio of minimum to maximum wavelength in Balmer series is
(1) 5 : 9
(2) 5 : 36
(3) 1 : 4
(4) 3 : 4
Rutherford’s -particle experiment showed that the atoms have
(1) Proton
(2) Nucleus
(3) Neutron
(4) Electrons
Which of the following is true for number of spectral lines in going from Lyman series to Pfund series ?
(1) Increases
(2) Decreases
(3) Unchanged
(4) May decreases or increases
Radius of the first orbit of the electron in a hydrogen atom is 0.53 Å. So, the radius of the third orbit will be
(1) 2.12 Å
(2) 4.77 Å
(3) 1.06 Å
(4) 1.59 Å
The first line in the Lyman series has wavelength . The wavelength of the first line in Balmer series is
(1)
(2)
(3)
(4)
In the following transitions, which one has higher frequency
(1) 3 – 2
(2) 4 – 3
(3) 4 – 2
(4) 3 – 1
The diagram depicts the paths of four \(\alpha\)-particles with identical energies being scattered simultaneously by the nucleus of an atom. Which of these paths are/is not physically possible?
1. \((3)\) & \((4)\)
2. \((2)\) & \((3)\)
3. \((1)\) & \((4)\)
4. \((4)\) only