MCQ Questions for Class 12 Medical Physics Wave Optics Quiz 3

The transverse nature of light is shown by

0%
interference of light
0%
refraction of light
0%
polarization of light
0%
dispersion of light

Albert Einstein used corpuscular theory to explain :

0%
$$E=mc^2$$
0%
The photoelectric effect
0%
Quantisation of charge
0%
magic of light

Who amongst the following used corpuscular theory to explain the nature of light?

0%
Max Planck
0%
Newton
0%
Young
0%
Einstein

Who first proposed that light was wave-like in character ?

0%
Huygens
0%
Newton
0%
Young
0%
Maxwell

In which of the following the final image is erect?

0%
Compound microscope
0%
Astronomical telescope
0%
Simple microscope
0%
All of the above

Two lenses of focal lengths $$+ 100 cm$$ and $$+ 5 cm$$ are used to prepare an astronomical telescope. The minimum tube length will be : (final image is at $$\displaystyle \infty $$)

0%
$$95 cm$$
0%
$$100 cm$$
0%
$$105 cm$$
0%
$$500 cm$$

In optical instruments, the lenses are used to form images by :

0%
Reflection
0%
Refraction
0%
Dispersion
0%
Scattering

When light falls on matter, it can produce :

0%
mechanical effect
0%
chemical effect
0%
heating effect
0%
all the above

During the $$19th$$ century, light was considered to be a stream of particles called :

0%
atoms
0%
electrons
0%
corpuscles
0%
quantas

Corpuscular theory of light was advanced by

0%
Huygen
0%
Newton
0%
Maxwell
0%
Hertz

The speed at which the current travels in a conductor, is nearly.

0%
$$3 \times 10^4 ms^{-1}$$
0%
$$3 \times 10^5 ms^{-1}$$
0%
$$4 \times 10^6 ms^{-1}$$
0%
$$3 \times 10^8 ms^{-1}$$

Which of the following statement is true ?

0%
Sound waves, not light waves, bend around obstacles
0%
Light waves, not sound waves, bend around obstacles
0%
Both light and sound waves bend around obstacles
0%
Neither sound waves nor light waves bend around obstacles
0%
None of the above

Two coherent sources of light can be obtained by

0%
two different lamps
0%
two different lams of same power and same colour
0%
two different lamps of same power
0%
none of these

Two light sources are said to be coherent if they are obtained from:

0%
two ordinary bulbs emitting light of different wavelengths
0%
a single point source
0%
a wide source
0%
two independent point sources emitting light of the same wavelength

When a compact disc is illuminated by a source of white light, coloured lines are observed. This is due to :

0%
dispersion
0%
diffraction
0%
interference
0%
refraction

In a simple slit diffraction pattern intensity and width of fringes are

0%
Unequal width
0%
Equal width
0%
Equal width and equal intensity
0%
Unequal width and unequal intensity

The path difference produced by two waves is $$3.75\mu m$$ and the wavelength is $$5000 \mathring { A } $$. The point is

0%
Uncertain
0%
Dark
0%
Partially bright
0%
Bright

The bending of light near the edges of an obstacle and spreading into the region of geometrical shadow is called ___________.

0%
Interference
0%
Diffraction
0%
Polarization
0%
Doppler effect

The tip of a needle does not give a sharp image on a screen. This is due to

0%
Polarisation
0%
Interference
0%
Diffraction
0%
None of these

What is diffraction of light?

0%
The process where the incident light on a surface is bounced back into the same medium
0%
Splitting of a ray of light into its 7 constituent colours is known as diffraction
0%
The process by which a beam of light is spread out as a result of passing through a narrow aperture or across an edge,is known as diffraction
0%
None of these

Assertion: Coloured spectrum is seen when we look through a muslin cloth.
Reason: It is due to the diffraction of white light on passing through fine slits.

0%
If both assertion and reason are true but the reason is the correct explanation of assertion
0%
If both assertion and reason are true but the reason is not the correct explanation ofassertion
0%
If assertion is true but reason is false
0%
If both the assertion and reason are false
0%
If reason is true but assertion is false

Wavefront of a wave has direction with wave motion

0%
parallel
0%
perpendicular
0%
opposite
0%
at an angle of $$\theta$$

Interference occurs in which of the following waves?

0%
Transverse
0%
Electromagnetic
0%
Longitudinal
0%
All of these

When resonance of two light waves occurs, it results in:

0%
absorption of light waves
0%
transmission of light waves
0%
a light color
0%
transparency
0%
a loud sound

Light waves exhibit polarization but sound waves do not exhibit polarization because they are not:

0%
longitudinal
0%
coherent
0%
dispersive
0%
transverse
0%
refractive

A series of light waves pass through a 200-nanometer gap in a wall. Identify which light wave diffracts the MOST?

0%
wave with 400-nm wavelength
0%
wave with 200-nm wavelength
0%
wave with 100-nm wavelength
0%
wave with 800-nm wavelength
0%
wave with 600-nm wavelength

Alternate bright and dark fringes are observed on a screen. What is the most probable cause of the problem?

0%
Light passing through a converging lens
0%
Light passing through a diverging lens
0%
Light passing through two very narrow slits
0%
Photos emitted from a metal
0%
Photos in an emission spectrum

The wave theory of light, in its original form, was first postulated by.

0%
Isaac Newton
0%
Christian Huygens
0%
Thomas Young
0%
Augustin Jean Fresnel

Constructive and destructive interference occur in:

0%
cosmic rays
0%
light raus
0%
sound waves
0%
water waves
0%
All of these

Identify which of the following best describe diffraction. Diffraction occurs when they:

0%
travel around an object or through an opening.
0%
transition from one medium to another.
0%
bounce off the surface of an object.
0%
resonate with the molecules in a medium.
0%
pass through a medium unchanged.

Identify which of the following should be used for polarised light waves?
I. Sunglasses
II. Remove ultraviolet light
III. Reveal stress patterns

0%
I only
0%
II only
0%
I and III only
0%
II and III only
0%
I, II, and III

Diffraction effects are more easily detected in the case of sound waves than light waves because:

0%
sound waves are longitudinal
0%
sound waves have smaller wavelength
0%
sound waves have larger wavelength
0%
sound waves are transverse

Water waves strike a solid barrier having a single small opening. Identify what happens to the waves that pass through the opening ?

0%
Converge
0%
Fan out
0%
Invert
0%
Interfere
0%
Polarize

A beam of light consists of a bundle of light rays.

0%
True
0%
False

Making a light wave vibrate in only one plane is known as :

0%
refraction.
0%
reflection
0%
Interference
0%
diffraction
0%
polarization.

Complete the following statement. The diffraction of a wave through a single opening produces

0%
refraction
0%
an angle of incidence
0%
a semicircular wave pattern
0%
an increase in speed of the wave
0%
a decreases in speed of the wave

Diffraction occurs when light:

0%
Travels into a new medium in which it has a new speed
0%
Is polarized by reflection
0%
Passes through broken or fractured glass
0%
Passes through a narrow slit
0%
Is absorbed by atoms in a rarefield gas

Why do polarized sun glasses block out some reflected light (glare), but do not block out light that has not been reflected?

0%
Some reflected light is at least partially polarized
0%
Some reflected light changes frequency
0%
Some reflected light is red-shifted
0%
Some reflected light is at least partially diffracted
0%
Some reflected light splits into multiple photons

What property of waves allows a person to hear sound from a source around the corner of a building?

0%
Diffraction
0%
Refraction
0%
Polarization
0%
Interference
0%
Amplitude

Which experiment seemed to make it clear that light propogates as a wave?

0%
Milikan's oil drop experiment
0%
The Michelson-Morley experiment
0%
Young's double-slit experiment
0%
Fresnel's lens experiment
0%
Lenz's proof of Lenz's law

If a light is passed through a single-slit hole and falls onto a screen . Identify the pattern of light produced on the screen :

0%
alternating bright and dark lines of equal width
0%
a bright central band of light with much smaller, dimmer bands toward the edges
0%
concentric circles of light
0%
one circle of light
0%
one bend of light

Find the right condition(s) for Fraunhoffer diffraction due to a single slit.

0%
Source is at infinite distance and the incident beam has converged at the slit.
0%
Source is near to the slit and the incident beam is parallel.
0%
Source is at infinity and the incident beam is parallel.
0%
Source is near to the slit and the incident beam has converged at the slit.

To observe diffraction, the size of the obstacle:

0%
has no relation to wavelength.
0%
should be $$\lambda / 2$$, where $$\lambda$$ is the wavelength.
0%
should be much larger than the wavelength.
0%
should be of the order of wavelength.

Diffraction pattern of a single slit consists of a central bright band which is

0%
Wide, and is flanked by alternate dark and bright bands of decreasing intensity
0%
Narrow, and is flanked by alternate dark and bright bands of equal intensity
0%
Wide, and is flanked by alternate dark and bright bands of equal intensity
0%
Narrow and is flanked by alternate-dark and bright bands of decreasing intensity

The following cannot be explained by wave nature of light

0%
Interference
0%
Photo electric effect
0%
Diffraction
0%
Refraction

Huygen's concept of secondary wave

0%
allow up to find the focal length of a thick lens
0%
is a geometrical method to find a wavefront
0%
is used to determine the velocity of light
0%
is used to explain polarization

The phenomenon of rotation of plane polarized light is called

0%
Kerr effect
0%
Double refraction
0%
Optical activity
0%
Dichroism

The shape of wave front at a very large distance from source is ______

0%
Circular
0%
Spherical
0%
Cylindrical
0%
Plane

For a diffraction from a single slit, the intensity of the central point is:

0%
infinite
0%
finite and same magnitude as the surrounding maxima
0%
finite but much larger than the surrounding maxima
0%
finite and substantially smaller than the surrounding maxima
0%
zero

The path difference, time difference and phase difference between two successive zones will be :

0%
$$\dfrac {\lambda}{2}, \dfrac {T}{2}$$ and $$\pi$$
0%
$$\lambda, T$$ and $$\pi$$
0%
$$\dfrac {\lambda}{2}, \dfrac {T}{2}$$ and $$\dfrac {\pi}{2}$$
0%
$$\dfrac {\lambda}{2}, \dfrac {T}{2}$$ and $$2\pi$$

CBSE Questions for Class 12 Medical Physics Wave Optics Quiz 3 - MCQExams.com

0:0:1

Practice Class 12 Medical Physics Quiz Questions and Answers

CBSE Questions for Class 12 Medical Physics Wave Optics Quiz 3 - MCQExams.com

0:0:1

Practice Class 12 Medical Physics Quiz Questions and Answers

Support mcqexams.com by disabling your adblocker.