Test: Bohr's Model for Hydrogen Atom

Question 1

The electron in Bohr’s model of hydrogen atom is pictured as revolving around the nucleus in order for it to

Accepted Answer

Possess energy

Answer

Emit protons

Answer

Keep from being pulled into the nucleus

Answer

Keep from being repelled by the nucleus

Question 2

Given below are the spectral lines for an atom of hydrogen. Mark the lines which are not correctly matched with the value of n₁ and n₂?

Accepted Answer

(ii) and (iv)

Answer

(i) and (ii)

Answer

(i) arid (hi)

Answer

(i) and (iv)

Question 3

What is the maximum number of emission lines when the excited electron of a hydrogen atom in n = 6 drops to ground state?

Accepted Answer

15

Answer

6

Answer

30

Answer

10

Question 4

What is the maximum number of emission lines obtained when the excited electron of a H atom in n = 5 drops to the ground state?

Accepted Answer

10

Answer

12

Answer

15

Answer

21

Question 5

What is the colour corresponding to the wavelength of light emitted when the electron in a hydrogen atom undergoes transition from n = 4 to n = 2?

Accepted Answer

Blue

Answer

Red

Answer

Yellow

Answer

Green

Question 6

_____series of lines are the only lines in hydrogen spectrum which appear in the visible region.

Accepted Answer

Balmer

Answer

Lyman

Answer

Paschen

Answer

Brackett

Question 7

An electron in excited hydrogen atom falls from fifth energy level to second energy level. In which of the following regions, the spectrum line will be observed and is part of which series of the atomic, spectrum?

Accepted Answer

Visible, Balmer

Answer

Ultraviolet, Lyman

Answer

Infrared, Paschen

Answer

Infrared, Brackett

Question 8

The third line of the Balmer series in the emission spectrum of the hydrogen atom is due to the transition from the

Accepted Answer

Fifth Bohr orbit to the second Bohr orbit

Answer

Fourth Bohr orbit to the first Bohr orbit

Answer

Sixth Bohr orbit to the third Bohr orbit

Answer

Seventh Bohr orbit to the third Bohr orbit

Question 9

The angular momentum of an electron in a given stationary state can be expressed as .
Based on this expression an electron can move only in those orbits for which its angular momentum is?

Accepted Answer

Integral multiple of h/2π

Answer

Equal to n

Answer

Multiple of n

Answer

Equal to h/2π only.

Question 10

According to Bohr’s theory, the angular momentum of an electron in 5th orbit is

Accepted Answer

2.5h/&pi;

Answer

10h/&pi;

Answer

25h/&pi;

Answer

1.5h/&pi;

Question 11

The radius of the stationary state which is also called Bohr radius is given by the expression r_n = n²a₀ where the value of a₀ is

Accepted Answer

52.9 pm

Answer

5.29 pm

Answer

529 pm

Answer

0.529 pm

Question 12

If the radius of first Bohr orbit is x pm, then the radius of the third orbit would be

Accepted Answer

(9 × x) pm

Answer

(3 × x) pm

Answer

(6 × x) pm

Answer

Question 13

What does the negative electronic energy (negative sign for all values of energy) for hydrogen atom means?

Accepted Answer

The energy of an electron in the atom is lower than the energy of a free electron at rest which is taken as zero

Answer

When the electron is free from the influence of nucleus it has a negative value which becomes more negative

Answer

When the electron is attracted by the nucleus the energy is absorbed which means a negative value

Answer

Energy is released by hydrogen atom in ground state

Question 14

If the ionisation energy of hydrogen atom is 13.6 eV, the energy required to excite it from ground state to the next higher state is approximately

Accepted Answer

10.2 eV

Answer

3.4 eV

Answer

17.2 eV

Answer

13.6 eV

Question 15

Bohr’s theory can also be applied to the ions like

Accepted Answer

All of these

Answer

He+

Answer

Li2+

Answer

Be3+

Question 16

According to Bohr’s theory, the electronic energy of H-atom in Bohr’s orbit is given by

Accepted Answer

Answer

Answer

Answer

Question 17

Which of the following is not correctly matched?

Accepted Answer

Energy of one mole of photons,

Answer

Energy associated with Bohr’s orbit,

Answer

Energy gap between two orbits,

Answer

Kinetic energy of the ejected electron,

Question 18

What is the trend of energy of Bohr’s orbits?

Accepted Answer

Energy of the orbit increases as we move away from the nucleus

Answer

Energy of the orbit decreases as we move away from the nucleus

Answer

Energy remains same as we move away from the nucleus

Answer

Energy of Bohr’s orbit cannot be calculated

Question 19

The radius of hydrogen atom in ground state is 0.53 Å. What will be the radius of ₃Li²⁺ in the ground state?

Accepted Answer

0.17 &Aring;

Answer

1.06 &Aring;

Answer

0.265 &Aring;

Answer

0.53 &Aring;

Question 20

What is the velocity of electron present in first Bohr orbit of hydrogen atom?

Accepted Answer

2.18 x 10⁶ m/s

Answer

2.18 x 10⁵ m/s

Answer

2.18 x 10^-18 m/s

Answer

2.18 x 10^-9 m/s

Bohr's Model for Hydrogen Atom - Free MCQ Practice Test with solutions,

MCQ Practice Test & Solutions: Test: Bohr's Model for Hydrogen Atom (20 Questions)

The electron in Bohr’s model of hydrogen atom is pictured as revolving around the nucleus in order for it to

Given below are the spectral lines for an atom of hydrogen. Mark the lines which are not correctly matched with the value of n₁ and n₂?

What is the maximum number of emission lines when the excited electron of a hydrogen atom in n = 6 drops to ground state?

What is the maximum number of emission lines obtained when the excited electron of a H atom in n = 5 drops to the ground state?

What is the colour corresponding to the wavelength of light emitted when the electron in a hydrogen atom undergoes transition from n = 4 to n = 2?

_____series of lines are the only lines in hydrogen spectrum which appear in the visible region.

An electron in excited hydrogen atom falls from fifth energy level to second energy level. In which of the following regions, the spectrum line will be observed and is part of which series of the atomic, spectrum?

The third line of the Balmer series in the emission spectrum of the hydrogen atom is due to the transition from the

The angular momentum of an electron in a given stationary state can be expressed as .
Based on this expression an electron can move only in those orbits for which its angular momentum is?

According to Bohr’s theory, the angular momentum of an electron in 5th orbit is

The radius of the stationary state which is also called Bohr radius is given by the expression r_n = n²a₀ where the value of a₀ is

If the radius of first Bohr orbit is x pm, then the radius of the third orbit would be

What does the negative electronic energy (negative sign for all values of energy) for hydrogen atom means?

If the ionisation energy of hydrogen atom is 13.6 eV, the energy required to excite it from ground state to the next higher state is approximately

Bohr’s theory can also be applied to the ions like

According to Bohr’s theory, the electronic energy of H-atom in Bohr’s orbit is given by

Which of the following is not correctly matched?

What is the trend of energy of Bohr’s orbits?

The radius of hydrogen atom in ground state is 0.53 Å. What will be the radius of ₃Li²⁺ in the ground state?

What is the velocity of electron present in first Bohr orbit of hydrogen atom?

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Bohr's Model for Hydrogen Atom - Free MCQ Practice Test with solutions,

MCQ Practice Test & Solutions: Test: Bohr's Model for Hydrogen Atom (20 Questions)

The electron in Bohr’s model of hydrogen atom is pictured as revolving around the nucleus in order for it to

Given below are the spectral lines for an atom of hydrogen. Mark the lines which are not correctly matched with the value of n1 and n2?

What is the maximum number of emission lines when the excited electron of a hydrogen atom in n = 6 drops to ground state?

What is the maximum number of emission lines obtained when the excited electron of a H atom in n = 5 drops to the ground state?

What is the colour corresponding to the wavelength of light emitted when the electron in a hydrogen atom undergoes transition from n = 4 to n = 2?

_____series of lines are the only lines in hydrogen spectrum which appear in the visible region.

An electron in excited hydrogen atom falls from fifth energy level to second energy level. In which of the following regions, the spectrum line will be observed and is part of which series of the atomic, spectrum?

The third line of the Balmer series in the emission spectrum of the hydrogen atom is due to the transition from the

The angular momentum of an electron in a given stationary state can be expressed as . Based on this expression an electron can move only in those orbits for which its angular momentum is?

According to Bohr’s theory, the angular momentum of an electron in 5th orbit is

The radius of the stationary state which is also called Bohr radius is given by the expression rn = n2a0 where the value of a0 is

If the radius of first Bohr orbit is x pm, then the radius of the third orbit would be

What does the negative electronic energy (negative sign for all values of energy) for hydrogen atom means?

If the ionisation energy of hydrogen atom is 13.6 eV, the energy required to excite it from ground state to the next higher state is approximately

Bohr’s theory can also be applied to the ions like

According to Bohr’s theory, the electronic energy of H-atom in Bohr’s orbit is given by

Which of the following is not correctly matched?

What is the trend of energy of Bohr’s orbits?

The radius of hydrogen atom in ground state is 0.53 Å. What will be the radius of 3Li2+ in the ground state?

What is the velocity of electron present in first Bohr orbit of hydrogen atom?

NCERT Based Tests for NEET

NCERT Based Tests for NEET

Top Courses for NEET

About this NEET Practice Test

Explore more NEET Study Resources

Given below are the spectral lines for an atom of hydrogen. Mark the lines which are not correctly matched with the value of n₁ and n₂?

The angular momentum of an electron in a given stationary state can be expressed as .
Based on this expression an electron can move only in those orbits for which its angular momentum is?

The radius of the stationary state which is also called Bohr radius is given by the expression r_n = n²a₀ where the value of a₀ is

The radius of hydrogen atom in ground state is 0.53 Å. What will be the radius of ₃Li²⁺ in the ground state?