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12th Class Physics Chapter 20 MCQs with Answers

12th Class Physics Chapter 20 MCQs

Welcome to the 12th Class Physics Chapter 20 MCQs Practice and Quiz Tests. We are presenting you with top MCQ questions from the 12th Class Physics Chapter 20 Atomic Spectra.

You can find all the 12th Class Physics Chapter 20 MCQs online tests on our website. These online tests are great for learning and as well as for scoring maximum marks in your Intermediate Exams. We are making these Class 12 Physics MCQs online tests for those who want full marks in their exams.

The study of the emission and absorption of light by atoms is called:
a) Quantum Mechanics
b) Atomic Spectra
c) General Relativity
d) Thermodynamics

Answer
b) Atomic Spectra

The lines in an atomic emission spectrum are due to:
a) Absorption of light by atoms
b) Reflection of light by atoms
c) Emission of light by atoms
d) Scattering of light by atoms

Answer
c) Emission of light by atoms

Which scientist proposed the Bohr model of the atom, which successfully explained the atomic spectra of hydrogen?
a) Max Planck
b) Niels Bohr
c) Werner Heisenberg
d) Albert Einstein

Answer
b) Niels Bohr

The discrete lines in an atomic emission spectrum are a result of:
a) The quantized energy levels of electrons in the atom
b) The continuous distribution of energy levels of electrons in the atom
c) The random motion of electrons in the atom
d) The scattering of light by electrons in the atom

Answer
a) The quantized energy levels of electrons in the atom

The atomic spectra of different elements are used for:
a) Generating electricity
b) Identifying elements
c) Producing X-rays
d) Cooling down atoms

Answer
b) Identifying elements

In the Bohr model of the hydrogen atom, electrons are arranged in:
a) Circular orbits around the nucleus
b) Random paths around the nucleus
c) Spherical shells around the nucleus
d) Elliptical orbits around the nucleus

Answer
a) Circular orbits around the nucleus

The lines in an atomic absorption spectrum are due to:
a) Absorption of light by atoms
b) Emission of light by atoms
c) Scattering of light by atoms
d) Reflection of light by atoms

Answer
a) Absorption of light by atoms

The energy of a photon emitted or absorbed during a transition between energy levels in an atom is given by:
a) Planck’s constant
b) The speed of light
c) The energy difference between the levels
d) The mass of the atom

Answer
c) The energy difference between the levels

The Balmer series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
b) n = 2 energy level

The Lyman series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
a) n = 1 energy level

The Paschen series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
c) n = 3 energy level

The energy of an electron in the Bohr model is quantized and given by the equation:
a) E = mv^2
b) E = mc^2
c) E = nhν
d) E = -13.6/n^2 eV

Answer
d) E = -13.6/n^2 eV

The energy levels of electrons in the Bohr model are labeled by the principal quantum number, denoted by:
a) n
b) m
c) l
d) s

Answer
a) n

The angular momentum of an electron in the Bohr model is quantized and given by the equation:
a) L = mv
b) L = nh/2π
c) L = mvr
d) L = mvr/2

Answer
b) L = nh/2π

The atomic spectra of elements show a pattern of lines because:
a) Electrons move in random paths around the nucleus
b) Electrons move in continuous orbits around the nucleus
c) Electrons can only exist in certain discrete energy levels
d) Electrons can have any energy level in the atom

Answer
c) Electrons can only exist in certain discrete energy levels

The emission of light by excited atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
d) Emit photons and return to lower energy levels

The absorption of light by atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
b) Absorb photons and return to lower energy levels

The energy difference between two energy levels in an atom is given by:
a) Planck’s constant
b) The speed of light
c) The energy of the emitted photon
d) The frequency of the emitted photon

Answer
c) The energy of the emitted photon

The energy of a photon is directly proportional to its:
a) Frequency
b) Wavelength
c) Speed
d) Mass

Answer
a) Frequency

The energy levels of an electron in an atom are quantized, meaning that they can only take on specific discrete values due to:
a) The wave nature of electrons
b) The particle nature of electrons
c) The electromagnetic nature of electrons
d) The quantization of angular momentum

Answer
b) The particle nature of electrons

Which of the following statements is true about the Bohr model of the atom?
a) It successfully explains the spectra of all elements.
b) It describes electrons as particles with definite positions and velocities.
c) It incorporates the wave nature of electrons.
d) It violates the principles of quantum mechanics.

Answer
d) It violates the principles of quantum mechanics.

The Balmer series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
b) n = 2 energy level

The Lyman series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
a) n = 1 energy level

The Paschen series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
c) n = 3 energy level

The energy of an electron in the Bohr model is quantized and given by the equation:
a) E = mv^2
b) E = mc^2
c) E = nhν
d) E = -13.6/n^2 eV

Answer
d) E = -13.6/n^2 eV

The energy levels of electrons in the Bohr model are labeled by the principal quantum number, denoted by:
a) n
b) m
c) l
d) s

Answer
a) n

The angular momentum of an electron in the Bohr model is quantized and given by the equation:
a) L = mv
b) L = nh/2π
c) L = mvr
d) L = mvr/2

Answer
b) L = nh/2π

The atomic spectra of elements show a pattern of lines because:
a) Electrons move in random paths around the nucleus
b) Electrons move in continuous orbits around the nucleus
c) Electrons can only exist in certain discrete energy levels
d) Electrons can have any energy level in the atom

Answer
c) Electrons can only exist in certain discrete energy levels

The emission of light by excited atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
d) Emit photons and return to lower energy levels

The absorption of light by atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
b) Absorb photons and return to lower energy levels

The energy difference between two energy levels in an atom is given by:
a) Planck’s constant
b) The speed of light
c) The energy of the emitted photon
d) The frequency of the emitted photon

Answer
c) The energy of the emitted photon

The energy of a photon is directly proportional to its:
a) Frequency
b) Wavelength
c) Speed
d) Mass

Answer
a) Frequency

The energy levels of an electron in an atom are quantized, meaning that they can only take on specific discrete values due to:
a) The wave nature of electrons
b) The particle nature of electrons
c) The electromagnetic nature of electrons
d) The quantization of angular momentum

Answer
b) The particle nature of electrons

Which of the following statements is true about the Bohr model of the atom?
a) It successfully explains the spectra of all elements.
b) It describes electrons as particles with definite positions and velocities.
c) It incorporates the wave nature of electrons.
d) It violates the principles of quantum mechanics.

Answer
d) It violates the principles of quantum mechanics.

The Balmer series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
b) n = 2 energy level

The Lyman series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
a) n = 1 energy level

The Paschen series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
c) n = 3 energy level

The energy of an electron in the Bohr model is quantized and given by the equation:
a) E = mv^2
b) E = mc^2
c) E = nhν
d) E = -13.6/n^2 eV

Answer
d) E = -13.6/n^2 eV

The energy levels of electrons in the Bohr model are labeled by the principal quantum number, denoted by:
a) n
b) m
c) l
d) s

Answer
a) n

The angular momentum of an electron in the Bohr model is quantized and given by the equation:
a) L = mv
b) L = nh/2π
c) L = mvr
d) L = mvr/2

Answer
b) L = nh/2π

The atomic spectra of elements show a pattern of lines because:
a) Electrons move in random paths around the nucleus
b) Electrons move in continuous orbits around the nucleus
c) Electrons can only exist in certain discrete energy levels
d) Electrons can have any energy level in the atom

Answer
c) Electrons can only exist in certain discrete energy levels

The emission of light by excited atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
d) Emit photons and return to lower energy levels

The absorption of light by atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
b) Absorb photons and return to lower energy levels

The energy difference between two energy levels in an atom is given by:
a) Planck’s constant
b) The speed of light
c) The energy of the emitted photon
d) The frequency of the emitted photon

Answer
c) The energy of the emitted photon

The energy of a photon is directly proportional to its:
a) Frequency
b) Wavelength
c) Speed
d) Mass

Answer
a) Frequency

The energy levels of an electron in an atom are quantized, meaning that they can only take on specific discrete values due to:
a) The wave nature of electrons
b) The particle nature of electrons
c) The electromagnetic nature of electrons
d) The quantization of angular momentum

Answer
b) The particle nature of electrons

Which of the following statements is true about the Bohr model of the atom?
a) It successfully explains the spectra of all elements.
b) It describes electrons as particles with definite positions and velocities.
c) It incorporates the wave nature of electrons.
d) It violates the principles of quantum mechanics.

Answer
d) It violates the principles of quantum mechanics.

The Balmer series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
b) n = 2 energy level

The Lyman series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
a) n = 1 energy level

The Paschen series in the hydrogen spectrum corresponds to transitions of electrons to the:
a) n = 1 energy level
b) n = 2 energy level
c) n = 3 energy level
d) n = 4 energy level

Answer
c) n = 3 energy level

The energy of an electron in the Bohr model is quantized and given by the equation:
a) E = mv^2
b) E = mc^2
c) E = nhν
d) E = -13.6/n^2 eV

Answer
d) E = -13.6/n^2 eV

The energy levels of electrons in the Bohr model are labeled by the principal quantum number, denoted by:
a) n
b) m
c) l
d) s

Answer
a) n

The angular momentum of an electron in the Bohr model is quantized and given by the equation:
a) L = mv
b) L = nh/2π
c) L = mvr
d) L = mvr/2

Answer
b) L = nh/2π

The atomic spectra of elements show a pattern of lines because:
a) Electrons move in random paths around the nucleus
b) Electrons move in continuous orbits around the nucleus
c) Electrons can only exist in certain discrete energy levels
d) Electrons can have any energy level in the atom

Answer
c) Electrons can only exist in certain discrete energy levels

The emission of light by excited atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
d) Emit photons and return to lower energy levels

The absorption of light by atoms occurs when electrons:
a) Absorb photons and jump to higher energy levels
b) Absorb photons and return to lower energy levels
c) Emit photons and jump to higher energy levels
d) Emit photons and return to lower energy levels

Answer
b) Absorb photons and return to lower energy levels

The energy difference between two energy levels in an atom is given by:
a) Planck’s constant
b) The speed of light
c) The energy of the emitted photon
d) The frequency of the emitted photon

Answer
c) The energy of the emitted photon

The energy of a photon is directly proportional to its:
a) Frequency
b) Wavelength
c) Speed
d) Mass

Answer
a) Frequency

The energy levels of an electron in an atom are quantized, meaning that they can only take on specific discrete values due to:
a) The wave nature of electrons
b) The particle nature of electrons
c) The electromagnetic nature of electrons
d) The quantization of angular momentum

Answer
b) The particle nature of electrons

Which of the following statements is true about the Bohr model of the atom?
a) It successfully explains the spectra of all elements.
b) It describes electrons as particles with definite positions and velocities.
c) It incorporates the wave nature of electrons.
d) It violates the principles of quantum mechanics.

Answer
d) It violates the principles of quantum mechanics.

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