Waves Test

Result

Waves Test - 84

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Question 1/10
4 / -1

A tuning fork A produces 4 beats/sec with another tuning fork B of frequency 320 Hz. On filing the fork A, 4 beats/sec are again heard. The frequency of fork A, after filing is

Correct

Wrong

Skipped
A
324 Hz

Correct

Wrong

Skipped
B
320 Hz

Correct

Wrong

Skipped
C
316 Hz

Correct

Wrong

Skipped
D
314 Hz

Solutions
Question 2/10
4 / -1

The number of beats produced per second by two vibrations: x₁ = x₀ sin 646 πt and x₂ = x₀ sin 652 πt is

Correct

Wrong

Skipped
A
2

Correct

Wrong

Skipped
B
3

Correct

Wrong

Skipped
C
4

Correct

Wrong

Skipped
D
6

Solutions
Question 3/10
4 / -1

A glass tube 1.5 m long and open at both ends, is immersed vertically in a water tank completely. A tuning fork of 660 Hz is vibrated and kept at the upper end of the tube and the tube is gradually raised out of water. The total number of resonances heard before the tube comes out of water, taking velocity of sound air 330 m/sec is

Correct

Wrong

Skipped
A
12

Correct

Wrong

Skipped
B
6

Correct

Wrong

Skipped
C
8

Correct

Wrong

Skipped
D
4

Solutions
Question 4/10
4 / -1

If the speed of a wave doubles as it passes from shallow water into deeper water, its wavelength will

Correct

Wrong

Skipped
A
Unchanged

Correct

Wrong

Skipped
B
Halved

Correct

Wrong

Skipped
C
Doubled

Correct

Wrong

Skipped
D
Quadrupled

Solutions
Question 5/10
4 / -1

A man standing between two parallel hills, claps his hand and hears successive echoes at regular intervals of 1s. If velocity of sound is 340ms^–1, then the distance between the hills is

Correct

Wrong

Skipped
A
100 m

Correct

Wrong

Skipped
B
170 m

Correct

Wrong

Skipped
C
510 m

Correct

Wrong

Skipped
D
340 m

Solutions
Question 6/10
4 / -1

A source of sound placed at the open end of a resonance column sends an acoustic wave of pressure amplitude inside the tube. If the atmospheric pressure ρ_A is ρ_o, then the ratio of maximum and minimum pressure at the dosed end of the tube will be

Correct

Wrong

Skipped
A

Correct

Wrong

Skipped
B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D

Solutions
Question 7/10
4 / -1

The length of two open organ pipes are 1 and (l +∆l) respectively. Neglecting end correction, the frequency of beats between them will be approximately (Here v is the speed of sound)

Correct

Wrong

Skipped
A

Correct

Wrong

Skipped
B

Correct

Wrong

Skipped
C

Correct

Wrong

Skipped
D

Solutions
Question 8/10
4 / -1

A tube closed at one end and containing air is excited. It produces the fundamental note of frequency 512 Hz. If the same tube is open at both the ends the fundamental frequency that can be produced is

Correct

Wrong

Skipped
A
1024 Hz

Correct

Wrong

Skipped
B
512 Hz

Correct

Wrong

Skipped
C
256 Hz

Correct

Wrong

Skipped
D
128 Hz
Question 9/10
4 / -1

A closed pipe and an open pipe have their first overtones identical in frequency. Their lengths are in the ratio

Correct

Wrong

Skipped
A
1 : 2

Correct

Wrong

Skipped
B
2 : 3

Correct

Wrong

Skipped
C
3 : 4

Correct

Wrong

Skipped
D
4 : 5

Solutions
Question 10/10
4 / -1

The first overtone in a closed pipe has a frequency

Correct

Wrong

Skipped
A
Same as the fundamental frequency of an open tube of same length

Correct

Wrong

Skipped
B
Twice the fundamental frequency of an open tube of same length

Correct

Wrong

Skipped
C
Same as that of the first overtone of an open tube of same length

Correct

Wrong

Skipped
D
None of the above

Solutions

Question 1/10

324 Hz

320 Hz

316 Hz

314 Hz

Question 2/10

2

3

4

6

Question 3/10

12

6

8

4

Question 4/10

Unchanged

Halved

Doubled

Quadrupled

Question 5/10

100 m

170 m

510 m

340 m

Question 6/10

Question 7/10

Question 8/10

1024 Hz

512 Hz

256 Hz

128 Hz

Question 9/10

1 : 2

2 : 3

3 : 4

4 : 5

Question 10/10

Same as the fundamental frequency of an open tube of same length

Twice the fundamental frequency of an open tube of same length

Same as that of the first overtone of an open tube of same length

None of the above