HSSC-II (Class-12) Solved Physics MCQs; Unit-18: Dawn of Modern Physics (Baluchistan Textbook Board, Quetta) With Verified Answers

HSSC-II (Class-12) Solved Physics MCQs; Unit-16: Physics of Solids (Baluchistan Textbook Board, Quetta) With Verified Answers: 

1. Inertial frame of reference is one that satisfies

A. Newton's Theory
B. Einstein Theory
C. Hertz Theory
D. Special theory of relativity

... Answer is A. Newton's Theory
In an inertial frame of reference, the acceleration of the body is zero, and the law of inertia remains valid in it. That is, if a body is at rest it will remain at rest and if a body is moving with a uniform velocity it will continue its uniform motion unless an unbalanced force produces an acceleration in it.

2. Non-inertial frame of reference has

A. Zero acceleration
B. Zero velocity
C. Uniform velocity
D. Variable velocity

... Answer is D. Variable velocity
A frame of reference that is accelerating (variable velocity), or decelerating is known as a Non-inertial frame of reference.

3. If the source of light is moving toward the observer, then the speed of light received by the observer will be

A. Decreased
B. Increased
C. Remain same
D. Maximum

... Answer is C. Remain same
According to the 2nd postulate of the Special theory of relativity, the speed of light (3 ｘ10⁸ m/s) is constant in all inertial frames of reference.

4. The relativistic length of a moving object will be

A. Remain same
B. Decreased
C. Increased
D. Doubled

... Answer is B. Decreased
According to Einstein's special theory of relativity, the length of an object measured in a frame of reference that is moving with respect to the object is always less than the rest length or proper length. This effect is known as length contraction.

5.  If the rest mass of a particle is zero, then its speed is

A. Equal to speed light
B. Less than the speed of light
C. Greater than the speed of light
D. Not comparable with the speed of light

... Answer is A. Equal to speed light
m = `\frac {m_0}{sqrt {1-v^2/c^2}}` when `\m_0` = 0 then v = c (after simplifying the relation). eg. the rest mass of photon in free space is zero and moves with the velocity of light.

6. Blackbody radiation depends upon

A. Pressure
B. Volume
C. Temperature
D. Density

... Answer is C. Temperature
Stefan-Boltzmann Law, E = σ T⁴

7. If the temperature of the black body is doubled then the emitted energy from it will be increased :

A. Doubled
B. Four-times
C. Eight-times
D. Sixteen-times

... Answer is D. Sixteen-times
Stefan-Boltzmann Law, E = σ T⁴

8. The dimension of Planck's constant is

A. [MLT⁻¹]
B. [ML²T⁻¹]
C. [ML²T⁻²]
D. [ML²T²]

... Answer is B. [ML²T⁻¹]
h = `\frac {E}{f}`-----(1), Dimensions of [E] = [ML²T⁻²], Dimensions of frequency [f]=[ T⁻¹] thus (1) h = `\frac {[ML²T⁻²]}{[ T⁻¹]}` = [ML²T⁻¹]

9. Who did observe 1st time the photoelectric effect?

A. Maxwell
B. Hertz
C. Einstein
D. Heisenberg

... Answer is B. Hertz
Heinrich Hertz in 1887

10. Photo electric effect depends upon the photon's

A. Pressure
B. Temperature
C. Intensity
D. Frequency

... Answer is D. Frequency
---

11. A photon can transfer its energy into an electron, it was first explained by

A. Maxwell
B. Hertz
C. Einstein
D. Bohr

... Answer is C. Einstein
------------------

12. The momentum of a photon is

A. mv
B. mc
C. hf
D. `\frac {hf}{c}`

... Answer is D. `\frac {hf}{c}`
-------------------

13. A change in energy of a photon occurs when it collides with an electron at rest is known as

A. Photoelectric effect
B. Compton effect
C. Pair production
D. Annihilation
... Answer is B. Compton effect
-----------------




14.  Which phenomenon does not verify the particle nature of light
A. Photoelectric effect
B. Compton effect
C. Pair production
D. diffraction

... Answer is D. diffraction
In Diffraction, light bends at the sharp ends of an obstacle or a hole. So, it also cannot verify the particle's nature of light.




15. The antiparticle of electron is
A. Neutron
B. Proton
C. Photon
D. Positron

... Answer is D. Positron
Positron is the antiparticle of electron. Both have the same rest mass but opposite charges.




16.. Davisson and Germer proved experimentally the wave nature of particles under the phenomenon of
A. Reflection
B. Refraction
C. Interference
D. Diffraction

... Answer is D. Diffraction
In Diffraction, light bends at the sharp ends of an obstacle or a hole. So, it also cannot verify the particle's nature of light.




17. In the electron-positron pair production, the speed of the electron is :
A. Zero
B. Less than the speed of positron
C. Equals to the speed of positron
D. Greater than the speed of positron

... Answer is C. Equals to the speed of positron
Positron is the antiparticle of electron. Both have the same rest mass and speed but opposite charges.




18. If the energy of the used light is high, then the momentum of the investigated particle has
A. Less uncertainty
B. High uncertainty
C. High accuracy
D. Equal uncertainty

... Answer is B. High uncertainty
Light of shorter wavelengths has high energy. Light of a shorter wavelength disturbs the momentum of a particle, as a result, there is more uncertainty in the measurement of the momentum of a particle. (Δp ≈ `\frac {h}{λ}`)




19. For small uncertainty in the measurement of the position of a particle, the wavelength of the incident light should be
A. Small
B. Large
C. Average
D. Does not depend on the wavelength

... Answer is A. Small
To reduce the uncertainty in the position of a particle, we must use light of shorter wavelength because Δx ≈ λ












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