11th Class Physics Chapter eight Short Questions with Answers Solved

Question: 1

Differentiate between longitudinal and transverse waves.

Answer: 1

1-35

Longitudinal waves: A traveling wave that causes the elements of the medium to move parallel to thee direction of propagation is called a longitudinal wave.

Transverse waves : A traveling wave that causes the elements of the disturbed medium to move perpendicular to the direction of propagation is called a transverse wave.

Question: 2

What do you observe in the collective effect of dots in the form of a picture?

Answer: 2

2-35

We observe that the picture is made up of many closely spaced dots.

In case of mechanical waves, it is actually the effects of cooperative oscillations of a very large number of the particles of the medium through which the wave is passing.

Question: 3

Define Mechanical and Electromagnetic waves.Give examples of each.

Answer: 3

3-35

Mechanical Waves: The waves which require any medium for their propagation by the oscillation of material particles are called mechanical waves e.g sound waves, water waves etc.

Electromagnetic waves: The waves which do not require any medium for their propagation are called electromagnetic waves. Fro example, visible light, radio waves, television signals, and x-rays.

Question: 4

What is progressive wave? Give the name of two progressive waves.

Answer: 4

4-35

A wave which transfer energy by moving away from the source of disturbance is called progressive wave.

For Example, longitudinal and transverse waves.

Question: 5

What is radar?

Answer: 5

5-35

It is acronym for Radio Detection and Ranging. It is a device which transmits and receive radio waves which are used to determine height and speed of aeroplane.

Question: 6

Differentiate between travelling waves and stationary waves.

Answer: 6

6-35

A waves which transfer energy by moving away from the source of disturbance, is called a travelling wave. The ripples produced in the water are the examples of travelling waves.

Two waves of equal frequency travelling in opposite direction produce stationary waves. In stationary waves energy cannot flow past the nodes and remains "standing" in the medium between nodes. Waves produced in a stretched string and air column are the examples of stationary waves.

Question: 7

Explain the terms Crest, Trough, Node and Antinode.

Answer: 7

7-35

Crest: The portion of the wave above the mean level is called crest.

Trough: The portion of the wave below the mean level is called trough.

Nodes: The points of zero displacement in stationary waves are called nodes.

Anti-nodes: The points of maximum displacement in stationary waves are called antinodes.

Question: 8

Explain why sound travels faster in warm air than in cold air?

Answer: 8

8-35

Question: 9

Why can micro waves not detect under water objects?

Answer: 9

9-35

Microwave are strongly absorbed by sea water within feet of their transmission Ultrasonic is a high frequency sound wave. Its is not part of electromagnetic spectrum. They are preferred on microwaves for the use of undersea communication because they can travel longer distance in water.

Question: 10

What feature do longitudinal waves have in common with transverse waves?

Answer: 10

10-35

The common features are:

Bothe are mechanical waves.
Both transport energy from one place to another.
Both satisfy the equation

Question: 11

As the result of distant explosion an observer senses a ground tremor and then hears the explosions.Explain the time difference.

Answer: 11

11-35

The waves produced by the explosion reach the observer quickly through the ground as compared to the sound waves reaching through the air. This is due to the reason that sound travels faster in solid than gases.

Question: 12

Why ultrasonic waves are preferred on radio waves for the use of undersea communication?

Answer: 12

12-35

Ultrasonic is a high frequency sound wave. It is not a part of electromagnetic spectrum. Ultrasonic waves transmit energy from one place to another using elastic properties of matter. They are preferred on radio waves for the use of undersea communication because they can travel longer distances in water.

Question: 13

What is apparent change in frequency when source is moving away from stationary observer?

Answer: 13

13-35

Question: 14

What is effect of pressure on the speed of sound in gases?

Answer: 14

14-35

Question: 15

What are the factors on which speed of sound in air depends?

Answer: 15

15-35

Speed of sound is inversely proportional to the square root of densities of gases.
Speed of sound increases with the increase in temperature
Speed of sound is not affected by a variation in the pressure of the gas.

Question: 16

What do you mean by the term progressive waves?

Answer: 16

16-35

A wave which tr5ansfer energy by moving away from the source of disturbance is called progressive wave.For example, longitudinal and transverse waves.

Question: 17

How should a source of sound move with.r.t an observer so that the frequency of its sound does not change?

Answer: 17

17-35

If sound source is moving in circular path with the observer at the center of the circle then relative velocity of the observer with respect to the source of sound is zero, there will be no change in the frequency of sound.

Question: 18

Can Doppler Effect be applied to electromagnetic waves? Give an example.

Answer: 18

18-35

Yes, Doppler effect can be applied to electromagnetic waves. For example, in radar systems, the Doppler effect is used to determine the elevation and speed of aeroplane.

Question: 19

Which is richer in harmonic, and why:

(A) an open organ pipe (B) A closed organ pipe.

Answer: 19

19-35

The pipe, which is open at both ends, is richer in harmonics.

At open end molecules of the air are free to move and an antinode is formed while the movement of air molecules is restricted at the closed end and a node is formed.

Therefore, the pipe open at both ends have antinode at each end and is richer in harmonics.

Question: 20

Give any two applications of Doppler Effect.

Answer: 20

20-35

Doppler effect is used:

In radar systems, the Doppler effect is used to determine the elevation and speed of aero plane.
Astronomers use the Doppler Effect to calculate the speed of distant stars and galaxies.

Question: 21

Define Doppler Effect.

Answer: 21

21-35

The apparent change in the frequency of sound due to relative motion between the observer and source of sound is called Doppler Effect. If the observer and source of sound are approaching then the frequency of sound will increase and vice versa.

Question: 22

How stationary waves are produced in a medium

Answer: 22

22-35

Theses waves are produced by the superposition of two identical waves traveling in opposite direction. When a stretched string clamped at its two ends is plucked then the stationary waves are produced.

Question: 23

What happens when a jet plane like a concorde files faster than the speed of sound?

Answer: 23

23-35

A conical surface of concentrated sound energy sweeps over the ground as a supersonic plane passes overhead. It is known as sonic boom.

Question: 24

Why "stationary waves" are called standing waves?

Answer: 24

24-35

In stationary waves energy cannot flow past the nodes and remains "standing" in the medium between nodes. Therefore stationary waves are called standing waves.

Question: 25

Define transverse waves, Give two examples.

Answer: 25

25-35

Transverse waves are those in which particles of the medium are displaced in a direction perpendicular to the direction of propagation of waves.

Waves produced in a stretched string and ripple produced in water are good examples of transverse waves.

Question: 26

State the principal of superposition.

Answer: 26

26-35

Question: 27

What is the effect of density on speed of sound?

Answer: 27

27-35

Question: 28

How are beats useful in tuning musical instruments?

Answer: 28

28-35

Beats are used in tuning musical instruments. One can use beats to tune a string of musical instrument such as plano by beating a not against a note oh known frequency.The string is then adjusted to the desired frequency by tightening or loosening it until no beats are heard.

Question: 29

Explain the term red shift and blue shift in Dopplers Effect.

Answer: 29

29-35

Stars moving away from the Earth show red shift. The emitted waves have a longer wavelength than if the star had been at rest. So the spectrum is shifted towards longer wavelength.

Stars moving towards the Earth show blue shift. This is because the wavelength of light emitted by the star is shorter than if the star had been at rest. So the spectrum is shifted towards shorter wavelength.

Question: 30

How stationary waves are produced in a medium.

Answer: 30

30-35

These waves are produced by the superposition of two identical waves travelling in opposite direction. When a stretched string clamped at its two ends is plucked then the stationary waves are produced.

Question: 31

Is it possible for two identical waves travelling in the same direction along the string to give rise to a stationary wave?

Answer: 31

31-35

No, it is not possible for two identical waves travelling in the same direction along a string to give rise to stationary waves, For stationary waves,wo identical waves must travel in opposite direction.

Question: 32

What is meant by sonar? Explain.

Answer: 32

32-35

Sonar is an acronym derived from "sound navigation and ranging".Sonar is the name os technique for detecting the presence of objects under water by acoustical echo.

It employs the Doppler Effect, in which an apparent change in frequency occurs when the source and the observer are in relative motion, Its applications are detection of submarines, mine hunting and depth measurement of sea.

Question: 33

A wave is produce along a stretched string but some of its particles permanently show zero displacement . What type of wave is it?

Answer: 33

33-35

A wave is produced along a stretched string but some of its particles permanently show zero displacement. It is a stationary wave and points at zero displacement are called nodes.

Question: 34

Explain the term "Beats" .

Answer: 34

34-35

Two waves that are travelling in the same direction with a slight difference in frequencies will produce beats.Number of beats per second is equal to the difference in frequencies.

Question: 35

Define Beat and beat frequency.

Answer: 35

35-35

Beat: Two waves of slightly different frequencies and travelling in the same direction produce beats.

Beat Frequency: Number of beats per second is called beat frequency which is equal to the difference in frequencies.

Physics Chapters

11th Class Chapter eight Physics Short Questions

0

Perparation Level