In Bohr's model of the hydrogen atom the ratio between the period of revolution of an electron in the orbit n=1 to the period of revolution of the electron in the orbit n=2 is

1. 1:2

2. 2:1

3. 1:4

4. 1:8

A cricket ball of 0.5 kg is moving with a velocity of 100 ms^-1. The wavelength associated with its motion is:

1. 1/100cm

2. 6.6 x 10^-34m

3. 1.32 x 10^-35m

4. 6.6 x 10^-28m

If uncertainties in the measurement of position and momentum are equal, what is the uncertainty in the measurement of velocity?

1. $\frac{1}{2}\sqrt{\frac{mh}{\mathrm{\pi }}}$ 

2. $\frac{1}{2\mathrm{\pi }}\sqrt{\frac{h}{m}}$

3.$\frac{1}{2m}\sqrt{\frac{h}{\mathrm{\pi }}}$

4. None of the above.

The number of electrons in  ₁₉ K with quantum numbers n=3; l=0 is/are:

1. 2

2. 1

3. 4

4. 3

The ratio of the difference in energy between the first and second Bohr orbit of H to that between the second and the third Bohr orbit is 

1. 1/2

2. 1/3

3. 4/9

4. 27/5

The number of orbitals that are possible at the L-energy level is

1. 2

2. 4

3. 6

4. 1

The radius of second stationary orbit in Bohr's atom is R. The radius of 3^rd orbit will be:-

1. 9R

2. R/4

3. 9R/4

4. 2R

Which of the following is not correctly matched?

1. Energy associated with Bohr's orbit E = $\frac{-2.18\times {10}^{-18}\times Z^2}{n^2}$

2. Energy gap between two orbits $∆E =-hc Z^2{R_H}^{} [\frac{1}{{n_1}^2 }-\frac{1}{{n^2}_2}]$

3. Kinectic energy of the ejected electron hv = hv₀ + 1/2mv²

4. Energy of one mole of photons E = N₀hv/C

If the velocity of a particle is reduced to 1/3^rd, then percentage increase in its de-broglie wavelength will be:-

1. 100%

2. 200%

3. 50%

4. 33.33%

The magnetic moment order is correctly given in 

1. Fe²⁺ < Fe³⁺ < Mn⁴⁺ < Cr³⁺

2. Cr³⁺ = Mn⁴⁺ < Fe²⁺ < Fe³⁺

3. Cr³⁺ = Mn⁴⁺ < Fe³⁺ < Fe²⁺

4. Fe²⁺ < Cr³⁺ < Fe³⁺ < Mn⁴⁺