In the experiment to determine the speed of sound using a resonance column ___________

Prongs of the tuning fork are kept in a horizontal plane

Prongs of the tuning fork are kept in a vertical plane

Prongs of the tuning fork are kept in a horizontal plane

In one of the two resonances observed, the length of the resonating air column is close to the wavelength of sound in air

In one of the two resonances observed, the length of the resonating air column is close to half of the wavelength of sound in air

In the experiment to determine the speed of sound using a resonance colum?

Prongs of the tuning fork are kept in a horizontal plane

Prongs of the tuning fork are kept in a vertical plane

Prongs of the tuning fork are kept in a horizontal plane

In one of the two resonances observed, the length of the resonating air column is close to the wavelength of sound in air

In one of the two resonances observed, the length of the resonating air column is close to half of the wavelength of sound in air

A wave represented by the equation y=acos(kx-‚âà√¨‚àö¬¢t) is superposed with another wave to form a stationary wave such that point x=0 is a node. The equation for the other wave is$

-asin(kx-‚âà√¨‚àö¬¢t)

acos(kx-‚âà√¨‚àö¬¢t)

-acos(kx-‚âà√¨‚àö¬¢t)

-acos(kx+‚âà√¨‚àö¬¢t)

-asin(kx-‚âà√¨‚àö¬¢t)

Two monatomic ideal gases 1 and 2 of molecular masses M1 and M2 respectively are enclosed in separate containers kept at the same temperature. The ratio of the speed pf spund in gas 1 to that in gas 2 is given by

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(M1/M2)

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(M2/M1)

The ratio of the speed of sound in nitrogen gas to that in the helium gas at 300 K is

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ6/5

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(2/7)

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(1/7)

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ3/5

‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ6/5

20 + Mcqs in Tansverse Waves in Engineering Physics Page 1 McqOptions

1.	In the experiment for the determination of the speed of sound in air using the resonance column method, the length of the air column that resonates in the fundamental mode, with a tuning fork is 0.1m. When this length is changed to 0.35m, the same tuning fork resonates with the first overtime. Calculate the end correction.
A.	0.012m
B.	0.025m
C.	0.05m
D.	0.024m
Answer» C. 0.05m

Discussion

2.	In a resonance tube with tuning fork of frequency 512Hz, first resonance occurs at water level equal to 30.3cm and second resonance occurs at 63.7cm. The maximum possible error in the speed of sound is?
A.	51.2 cm/s
B.	102.4m/s
C.	204.8cm/s
D.	1536cm/s
Answer» B. 102.4m/s

Discussion

3.	In the experiment to determine the speed of sound using a resonance column ___________
A.	Prongs of the tuning fork are kept in a vertical plane
B.	Prongs of the tuning fork are kept in a horizontal plane
C.	In one of the two resonances observed, the length of the resonating air column is close to the wavelength of sound in air
D.	In one of the two resonances observed, the length of the resonating air column is close to half of the wavelength of sound in air
Answer» B. Prongs of the tuning fork are kept in a horizontal plane

Discussion

4.	Two vibrating springs of the same material but lengths L and 2L have radii 2r and r respectively. They are stretched under the same tension. Both the strings vibrate in their fundamental modes, one of the lengths L with frequency f1 and the other with frequency f2. The ration is given by?
A.	2
B.	4
C.	8
D.	1
Answer» E.

Discussion

5.	A wave represented by the equation y=acos(kx-ωt) is superposed with another wave to form a stationary wave such that point x=0 is a node. The equation for the other wave is?
A.	acos(kx-ωt)
B.	-acos(kx-ωt)
C.	-acos(kx+ωt)
D.	-asin(kx-ωt)
Answer» D. -asin(kx-ωt)

Discussion

6.	A travelling wave in a stretched string is described by the equation y = Asin(kx-ωt). The maximum particle velocity is ___________
A.	Aω
B.	ω/k
C.	dω/dk
D.	x/t
Answer» B. ω/k

Discussion

7.	The extension in a string, obeying Hooke’s law, is x. The speed of sound in the stretched string is v. If the extension in the spring is increased to 1.5x, the speed of sound will be ___________
A.	1.22v
B.	0.16v
C.	1.50v
D.	0.75v
Answer» B. 0.16v

Discussion

8.	Two monatomic ideal gases 1 and 2 of molecular masses M1 and M2 respectively are enclosed in separate containers kept at the same temperature. The ratio of the speed pf spund in gas 1 to that in gas 2 is given by?
A.	√(M1/M2)
B.	√(M2/M1)
C.	M1/M2
D.	M2/M1
Answer» C. M1/M2

Discussion

9.	The ratio of the speed of sound in nitrogen gas to that in the helium gas at 300 K is?
A.	√(2/7)
B.	√(1/7)
C.	√3/5
D.	√6/5
Answer» D. √6/5

Discussion

10.	A source of sound frequency 600Hz is placed inside water. The speed of sound in water is 1500 m/s and in air it is 300 m/s. The frequency of sound is recorded by an observer, who is standing in the air is?
A.	200 Hz
B.	3000 Hz
C.	120 Hz
D.	600 Hz
Answer» E.

Discussion

11.	IN_THE_EXPERIMENT_FOR_THE_DETERMINATION_OF_THE_SPEED_OF_SOUND_IN_AIR_USING_THE_RESONANCE_COLUMN_METHOD,_THE_LENGTH_OF_THE_AIR_COLUMN_THAT_RESONATES_IN_THE_FUNDAMENTAL_MODE,_WITH_A_TUNING_FORK_IS_0.1M._WHEN_THIS_LENGTH_IS_CHANGED_TO_0.35M,_THE_SAME_TUNING_FORK_RESONATES_WITH_THE_FIRST_OVERTIME._CALCULATE_THE_END_CORRECTION?$
A.	0.012m
B.	0.025m
C.	0.05m
D.	0.024m
Answer» C. 0.05m

Discussion

12.	IN_A_RESONANCE_TUBE_WITH_TUNING_FORK_OF_FREQUENCY_512HZ,_FIRST_RESONANCE_OCCURS_AT_WATER_LEVEL_EQUAL_TO_30.3CM_AND_SECOND_RESONANCE_OCCURS_AT_63.7CM._THE_MAXIMUM_POSSIBLE_ERROR_IN_THE_SPEED_OF_SOUND_IS?$
A.	51.2 cm/s
B.	102.4m/s
C.	204.8cm/s
D.	1536cm/s
Answer» B. 102.4m/s

Discussion

13.	In the experiment to determine the speed of sound using a resonance colum?
A.	Prongs of the tuning fork are kept in a vertical plane
B.	Prongs of the tuning fork are kept in a horizontal plane
C.	In one of the two resonances observed, the length of the resonating air column is close to the wavelength of sound in air
D.	In one of the two resonances observed, the length of the resonating air column is close to half of the wavelength of sound in air
Answer» B. Prongs of the tuning fork are kept in a horizontal plane

Discussion

14.	Two vibrating springs of the same material but lengths L and 2L have radii 2r and r respectively. They are stretched under the same tension. Both the strings vibrate in their fundamental modes, one of the lengths L with frequency f₁ and the other with frequency f₂. The ration is given by
A.	2
B.	4
C.	8
D.	1
Answer» E.

Discussion

15.	A wave represented by the equation y=acos(kx-‚âà√¨‚àö¬¢t) is superposed with another wave to form a stationary wave such that point x=0 is a node. The equation for the other wave is$
A.	acos(kx-‚âà√¨‚àö¬¢t)
B.	-acos(kx-‚âà√¨‚àö¬¢t)
C.	-acos(kx+‚âà√¨‚àö¬¢t)
D.	-asin(kx-‚âà√¨‚àö¬¢t)
Answer» D. -asin(kx-‚âà√¨‚àö¬¢t)

Discussion

16.	A travelling wave in a stretched string is described by the equation y = Asin(kx-‚âà√¨‚àö¬¢t). The maximum particle velocity is$
A.	A‚âà√¨‚àö¬¢
B.	‚âà√¨‚àö¬¢/k
C.	d‚âà√¨‚àö¬¢/dk
D.	x/t
Answer» B. ‚âà√¨‚àö¬¢/k

Discussion

17.	The extension in a string, obeying Hooke‚Äö√Ñ√∂‚àö√ë‚àö¬•s law, is x. The speed of sound in the stretched string is v. If the extension in the spring is increased to 1.5x, the speed of sound will be$
A.	1.22v
B.	0.16v
C.	1.50v
D.	0.75v
Answer» B. 0.16v

Discussion

18.	Two monatomic ideal gases 1 and 2 of molecular masses M₁ and M₂ respectively are enclosed in separate containers kept at the same temperature. The ratio of the speed pf spund in gas 1 to that in gas 2 is given by
A.	‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(M<sub>1</sub>/M<sub>2</sub>)
B.	‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(M<sub>2</sub>/M<sub>1</sub>)
C.	M<sub>1</sub>/M<sub>2</sub>
D.	M<sub>2</sub>/M<sub>1</sub>
Answer» C. M<sub>1</sub>/M<sub>2</sub>

Discussion

19.	The ratio of the speed of sound in nitrogen gas to that in the helium gas at 300 K is
A.	‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(2/7)
B.	‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ(1/7)
C.	‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ3/5
D.	‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ6/5
Answer» D. ‚Äö√Ñ√∂‚àö‚Ä†‚àö‚àÇ6/5

Discussion

20.	A source of sound frequency 600Hz is placed inside water. The speed of sound in water is 1500 m/s and in air it is 300 m/s. The frequency of sound is recorded by an observer, who is standing in the air, is
A.	200 Hz
B.	3000 Hz
C.	120 Hz
D.	600 Hz
Answer» E.

Discussion

Explore topic-wise MCQs in Engineering Physics.

In a resonance tube with tuning fork of frequency 512Hz, first resonance occurs at water level equal to 30.3cm and second resonance occurs at 63.7cm. The maximum possible error in the speed of sound is?

In the experiment to determine the speed of sound using a resonance column ___________

Two vibrating springs of the same material but lengths L and 2L have radii 2r and r respectively. They are stretched under the same tension. Both the strings vibrate in their fundamental modes, one of the lengths L with frequency f1 and the other with frequency f2. The ration is given by?

A wave represented by the equation y=acos(kx-ωt) is superposed with another wave to form a stationary wave such that point x=0 is a node. The equation for the other wave is?

A travelling wave in a stretched string is described by the equation y = Asin(kx-ωt). The maximum particle velocity is ___________

The extension in a string, obeying Hooke’s law, is x. The speed of sound in the stretched string is v. If the extension in the spring is increased to 1.5x, the speed of sound will be ___________

Two monatomic ideal gases 1 and 2 of molecular masses M1 and M2 respectively are enclosed in separate containers kept at the same temperature. The ratio of the speed pf spund in gas 1 to that in gas 2 is given by?

The ratio of the speed of sound in nitrogen gas to that in the helium gas at 300 K is?

A source of sound frequency 600Hz is placed inside water. The speed of sound in water is 1500 m/s and in air it is 300 m/s. The frequency of sound is recorded by an observer, who is standing in the air is?

IN_A_RESONANCE_TUBE_WITH_TUNING_FORK_OF_FREQUENCY_512HZ,_FIRST_RESONANCE_OCCURS_AT_WATER_LEVEL_EQUAL_TO_30.3CM_AND_SECOND_RESONANCE_OCCURS_AT_63.7CM._THE_MAXIMUM_POSSIBLE_ERROR_IN_THE_SPEED_OF_SOUND_IS?$

In the experiment to determine the speed of sound using a resonance colum?

Two vibrating springs of the same material but lengths L and 2L have radii 2r and r respectively. They are stretched under the same tension. Both the strings vibrate in their fundamental modes, one of the lengths L with frequency f1 and the other with frequency f2. The ration is given by

A wave represented by the equation y=acos(kx-‚âà√¨‚àö¬¢t) is superposed with another wave to form a stationary wave such that point x=0 is a node. The equation for the other wave is$

A travelling wave in a stretched string is described by the equation y = Asin(kx-‚âà√¨‚àö¬¢t). The maximum particle velocity is$

The extension in a string, obeying Hooke‚Äö√Ñ√∂‚àö√ë‚àö¬•s law, is x. The speed of sound in the stretched string is v. If the extension in the spring is increased to 1.5x, the speed of sound will be$

Two monatomic ideal gases 1 and 2 of molecular masses M1 and M2 respectively are enclosed in separate containers kept at the same temperature. The ratio of the speed pf spund in gas 1 to that in gas 2 is given by

The ratio of the speed of sound in nitrogen gas to that in the helium gas at 300 K is

A source of sound frequency 600Hz is placed inside water. The speed of sound in water is 1500 m/s and in air it is 300 m/s. The frequency of sound is recorded by an observer, who is standing in the air, is

Two vibrating springs of the same material but lengths L and 2L have radii 2r and r respectively. They are stretched under the same tension. Both the strings vibrate in their fundamental modes, one of the lengths L with frequency f₁ and the other with frequency f₂. The ration is given by

Two monatomic ideal gases 1 and 2 of molecular masses M₁ and M₂ respectively are enclosed in separate containers kept at the same temperature. The ratio of the speed pf spund in gas 1 to that in gas 2 is given by