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JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced PDF Download

2023

Q1: A string of length  1 m and mass  2×10−5 kg is under tension T. When the string vibrates, two successive harmonics are found to occur at frequencies  750 Hz and  1000 Hz. The value of tension T is ________ Newton.       [JEE Advanced 2023 Paper 2]
Ans: 
5
JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced
T : Tension in the string.
 Successive frequencies are being given
 It is the case of both ends fixed.

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

T = 5 N

Q2: S1 and S2 are two identical sound sources of frequency  656 Hz. The source S1 is located at O and S2 moves anti-clockwise with a uniform speed   42 m s−1 on a circular path around O, as shown in the figure. There are three points P,Q and R on this path such that P and R are diametrically opposite while Q is equidistant from them. A sound detector is placed at point P. The source S1 can move along direction OP.
[Given: The speed of sound in air is   324 m s−1

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

When only S2 is emitting sound and it is at Q, the frequency of sound measured by the detector in Hz is _________.      [JEE Advanced 2023 Paper 2]
Ans:
648
f0 = 656 Hz
 Velocity of second = 324 m s−1

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Velocity of the source away from detector, 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Q3: S1 and S2 are two identical sound sources of frequency  656 Hz. The source S1 is located at O and S2 moves anti-clockwise with a uniform speed   42 m s−1 on a circular path around O, as shown in the figure. There are three points P,Q and R on this path such that P and R are diametrically opposite while Q is equidistant from them. A sound detector is placed at point P. The source S1 can move along direction OP.
[Given: The speed of sound in air is   324 m s−1

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Consider both sources emitting sound. When S2 is at R and S1 approaches the detector with a speed 4m s−1, the beat frequency measured by the detector is _________ Hz.       [JEE Advanced 2023 Paper 2]
Ans:
8.20

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Frequency heard due to movement of (S1)

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

And frequency heard due to movement of (S2)

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

∴ Beat frequency
JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

2021

Q1: A source, approaching with speed u towards the open end of a stationary pipe of length L, is emitting a sound of frequency fs. The farther end of the pipe is closed. The speed of sound in air is v and f0 is the fundamental frequency of the pipe. For which of the following combination(s) of u and fs, will the sound reaching the pipe lead to a resonance?
(a) u = 0.8v and fs = f0
(b) u = 0.8v and fs = 2f0
(c) u = 0.8v and fs = 0.5f0
(d) u = 0.5v and fs = 1.5f                     [JEE Advanced 2021 Paper 2]

Ans: (a) & (d)
Natural frequency of closed pipe,
f = (2n + 1)f0
f0 is fundamental frequency
n = 0, 1, 2 ....... 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Frequency of source received by pipe,

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

For resonance,

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

For n = 2 pipe can be in resonance
Hence, option (a) is correct.
If u = 0.8v, fs = 2f0 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Not possible.

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

For n = 1 f = 3f0
Pipe can be in resonance.
Hence, option (d) is correct. 

2020

Q1: A stationary tuning fork is in resonance with an air column in a pipe. If the tuning fork is moved with a speed of 2 ms−1 in front of the open end of the pipe and parallel to it, the length of the pipe should be changed for the resonance to occur with the moving tuning fork. If the speed of sound in air is 320 ms−1, the smallest value of the percentage change required in the length of the pipe is ____________.    [JEE Advanced 2020 Paper 1]
Ans: 
0.62 to 0.63

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

(where, l1  initial length of pipe) 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

(where, vT = speed of tuning fork, l2 = new length of pipe)
Dividing Eq. (i) by Eq. (ii), we get 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Therefore, smallest value of percentage change required in the length of pipe is 0.625.

2019

Q1: A musical instrument is made using four different metal strings, 1, 2, 3 and 4 with mass per unit length μ, 2μ, 3μ and 4μ respectively. The instrument is played by vibrating the strings by varying the free length in between the range L0 and 2L0. It is found that in string-1μ at free length L0 and tension T0 the fundamental mode frequency is f0.
List-I gives the above four strings while list-II lists the magnitude of some quantity. 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

If the tension in each string is T0, the correct match for the highest fundamental frequency in f0 units will be
(a) I → P, II → Q, III → T, IV → S
(b) I → P, II → R, III → S, IV → Q
(c) I → Q, II → S, III → R, IV → P
(d) I → Q, II → P, III → R, IV → T    [
JEE Advanced 2019 Paper 2]
Ans: 
(b)
Fundamental frequency is maximum when length is minimum i.e. L0,
Case 1: JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Case 2: JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Case 3: JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Case 4: JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Q2: A train S1, moving with a uniform velocity of 108 km/h, approaches another train S2 standing on a platform. An observer O moves with a uniform velocity of 36 km/h towards S2, as shown in figure.

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Both the trains are blowing whistles of same frequency 120 Hz. When O is 600 m away from S2 and distance between S1 and S2 is 800 m, the number of beats heard by O is __________ .
[Speed of the sound = 330 m/s _______ .]  [JEE Advanced 2019 Paper 1]
Ans: 
8.13
Vsound = 330 m/s 

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

2018

Q1: In an experiment to measure the speed of sound by a resonating air column, a tuning fork of frequency 500 Hz is used. The length of the air column is varied by changing the level of water in the resonance tube. Two successive resonances are heard at air columns of length 50.7 cm and 83.9 cm. Which of the following statements is (are) true?
(a) The speed of second determined from this experiment is 332ms−1
(b) The end correction in this experiment is 0.9cm
(c) The wavelength of the sound wave is 66.4cm
(d) The resonance at 50.7 cm corresponds to the fundamental harmonic   [JEE Advanced 2018 Paper 2]
Ans:
(a) & (c)
Frequency of tuning fork = 500 Hz
Length of n1 harmonic = 50.7 cm
Length of n2 harmonic = 83.9 cm
We know that
n2 harmonic − n1 harmonic = λ/2

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Therefore, wavelength of sound wave is 66.4 cm, so option (C) is correct.
Now, speed of sound is given as
v = f λ = 500 × 66.4 × 10−2
⇒ v = 332 m s−1
Thus, speed of sound determined from this experiment is 332 n s−1, so option (A) is correct. JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Thus, the end correction in this experiment is 0.9 cm. Therefore, option (B) is correct.

Q2: Two men are walking along a horizontal straight line in the same direction. The man in front walks at a speed 1.0ms−1 and the man behind walks at a speed 2.0ms−1 . A third man in standing at a height 12 m above the same horizontal line such that all three men are in a vertical plane. The two walking men are blowing identical whistles which emit a sound of frequency 1430 Hz. The speed of sound in air is 330ms−1 . At the instant, when the moving men are 10 m apart, the stationary man is equidistant from them. The frequency of beats in Hz, heard by the stationary man at this instant, is ______.    [JEE Advanced 2018 Paper 1]
Ans: 
5
From given data, we can draw the figure below.

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Now, frequency of man behind is

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

where, x is speed of sound in air, vs is speed of man and f is frequency of whistle. Therefore,

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Frequency of man in front is

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

Now, frequency of beat is given as

JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced

= JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced
= 5.0058 Hz ≈ 5.00 Hz

The document JEE Advanced Previous Year Questions (2018 - 2023): Waves | Physics for JEE Main & Advanced is a part of the JEE Course Physics for JEE Main & Advanced.
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FAQs on JEE Advanced Previous Year Questions (2018 - 2023): Waves - Physics for JEE Main & Advanced

1. What is the concept of waves in the context of JEE Advanced?
Ans. Waves in the context of JEE Advanced refer to the propagation of disturbances through a medium or space, transferring energy without the transfer of matter.
2. How do waves differ from particles in terms of their behavior?
Ans. Waves exhibit characteristics such as interference, diffraction, and superposition, which particles do not display. Waves also follow wave equations, while particles follow classical mechanics principles.
3. What are the different types of waves that are commonly encountered in physics?
Ans. Common types of waves include mechanical waves (such as sound waves and water waves), electromagnetic waves (such as light waves and radio waves), and matter waves (associated with particles in quantum mechanics).
4. How are wave properties like frequency, wavelength, and amplitude related to each other?
Ans. The frequency of a wave is inversely proportional to its wavelength, meaning as one increases, the other decreases. The amplitude of a wave is the maximum displacement from the equilibrium position and is independent of frequency and wavelength.
5. Can waves exhibit both particle-like and wave-like behavior?
Ans. Yes, in the field of quantum mechanics, particles such as electrons can exhibit wave-particle duality, showing characteristics of both waves (interference, diffraction) and particles (particle-like trajectory).
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