The first line of Balmer series has wavelength 6563 Å. What will be the wavelength of the first member of Lyman series

(a) 1215.4 Å             (b) 2500 Å
(c) 7500 Å                (d) 600 Å

Concept Questions :-

Spectral series
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level:

In Bohr's model, the atomic radius of the first orbit is ${\mathrm{r}}_{0}$, then the radius of the third orbit is
(a) $\frac{{\mathrm{r}}_{0}}{9}$               (b) ${\mathrm{r}}_{0}$
(c) $9{\mathrm{r}}_{0}$               (d) $3{\mathrm{r}}_{0}$

Concept Questions :-

Bohr's model of atom
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level:

The wavelength of the energy emitted when electron come from fourth orbit to second orbit in hydrogen is 20.397 cm. The wavelength of energy for the same transition in ${\mathrm{He}}^{+}$ is

(a) 5.099 ${\mathrm{cm}}^{-1}$             (b) 20.497 ${\mathrm{cm}}^{-1}$
(c) 40.994 ${\mathrm{cm}}^{-1}$            (d) 81.988 ${\mathrm{cm}}^{-1}$

Concept Questions :-

Bohr's model of atom
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level:

Minimum excitation potential of Bohr's first orbit in hydrogen atom is
(a) 13.6 V                     (b) 3.4 V
(c) 10.2 V                     (d) 3.6 V

Concept Questions :-

Bohr's model of atom
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level:

Which of the following statements are true regarding Bohr's model of hydrogen atom

(I) Orbiting speed of electron decreases as it shifts to
discrete orbits away from the nucleus

(II) Radii of allowed orbits of electron are proportional to the cube of principal quantum number

(III) Frequency with which electrons orbits around the nucleus in discrete orbits is inversely proportional to the principal quantum number

(IV) Binding force with which the electron is bound to the nucleus increases as it shifts to outer orbits
Select correct answer using the codes given below
Codes :
(a) I and III                 (b) II and IV
(c) I, II and III            (d) II, III and IV

Concept Questions :-

Bohr's model of atom
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level:

For electron moving in ${\mathrm{n}}^{\mathrm{th}}$ orbit of H-atom the angular velocity is proportional to
(a) n                       (b) 1/n
(c) ${\mathrm{n}}^{3}$                     (d) 1/${\mathrm{n}}^{3}$

Concept Questions :-

Bohr's model of atom
Please attempt this question first.

Difficulty Level:

The energy of electron in first excited state of H-atom is -3.4 eV its kinetic energy is

(a) – 3.4 eV                 (b) + 3.4 eV
(c) – 6.8 eV                 (d) 6.8 eV

Concept Questions :-

Bohr's model of atom
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level:

Which of the following phenomena suggests the presence of electron energy levels in atoms

(a) Radio active decay

(b) Isotopes

(c) Spectral lines

(d) $\mathrm{\alpha }$-particles scattering

Concept Questions :-

Various atomic model
Please attempt this question first.

Difficulty Level:

Which of the following spectral series in hydrogen atom give spectral line of 4860 Å
(a) Lyman               (b) Balmer
(c) Paschen             (d) Brackett

Concept Questions :-

Spectral series
Please attempt this question first.

Difficulty Level:

When an electron in hydrogen atom is excited, from its 4th to 5th stationary orbit, the change in angular momentum of electron is (Planck’s constant: h = 6.6)

(a)                (b)
(c)                (d)

Concept Questions :-

Bohr's model of atom
To view Explanation, Please buy any of the course from below.
High Yielding Test Series + Question Bank - NEET 2020

Difficulty Level: