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Chapter 10: Problem 1414

For the following questions, statement as well as the reason(s) are given. Each questions has four options. Select the correct option. (a) Statement \(-1\) is true, statement \(-2\) is true; statement \(-2\) is the correct explanation of statement \(-1\). (b) Statement \(-1\) is true, statement \(-2\) is true but statement \(-2\) is not the correct explanation of statement \(-1\). (c) Statement \(-1\) is true, statement \(-2\) is false (d) Statement \(-1\) is false, statement \(-2\) is true (A) a (B) \(\mathrm{b}\) (C) \(c\) (D) \(\mathrm{d}\) Statement \(-1:\) For a particle executing SHM, the amplitude and phase is decided by its initial position and initial velocity. Statement \(-2:\) In a SHM, the amplitude and phase is dependent on the restoring force. (A) a (B) \(b\) (C) \(\mathrm{c}\) (D) \(\mathrm{d}\)

Short Answer

Expert verified
(c) Statement $-1$ is true, statement $-2$ is false

Step by step solution

01

Analyzing Statement 1

In Simple Harmonic Motion (SHM), the equation of position is given by: \[x(t) = A\cos(\omega t + \phi)\] Here, A is the amplitude, ω is the angular frequency, t is the time, and φ is the phase. Initial position (\(x(0)\)) and initial velocity (\(\dot{x}(0)\)) are given by: \(x(0) = A\cos(\phi)\) \(\dot{x}(0) = - A\omega\sin(\phi)\) With this information, we can find the amplitude A and phase φ, which indicates that statement 1 is true.
02

Analyzing Statement 2

The restoring force in SHM is given by: \(F = -kx\) Here, k is the spring constant and x is the position. The restoring force determines the angular frequency ω since: \(\omega^2 = \frac{k}{m}\), where m is the mass of the particle. However, the amplitude A and the phase φ directly depend on the initial conditions like position and velocity, not on the restoring force. Therefore, statement 2 is false.
03

Checking if Statement 2 correctly explains Statement 1

Since statement 2 is false, it cannot be a correct explanation for statement 1.
04

Choosing the correct option

We have found that statement 1 is true, and statement 2 is false. Therefore, the correct option is (c).

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Most popular questions from this chapter

The distance travelled by a particle performing S.H.M. during time interval equal to its periodic time is \(\ldots \ldots\) (A) A (B) \(2 \mathrm{~A}\) (C) \(4 \mathrm{~A}\) (D) Zero.

For the following questions, statement as well as the reason(s) are given. Each questions has four options. Select the correct option. (a) Statement \(-1\) is true, statement \(-2\) is true; statement \(-2\) is the correct explanation of statement \(-1\) (b) Statement \(-1\) is true, statement \(-2\) is true but statement \(-2\) is not the correct explanation of statement \(-1\). (c) Statement \(-1\) is true, statement \(-2\) is false (d) Statement \(-1\) is false, statement \(-2\) is true (A) a (B) b (C) \(\mathrm{c}\) (D) \(\mathrm{d}\) Statement \(-1:\) If the length of a simple pendulum is increased by \(3 \%\), then the periodic time changes by \(1.5 \%\). Statement \(-2:\) Periodic time of a simple pendulum is proportional to its length. (A) a (B) \(b\) (C) \(c\) (D) d

As shown in figure, two light springs having force constants \(\mathrm{k}_{1}=1.8 \mathrm{~N} \mathrm{~m}^{-1}\) and $\mathrm{k}_{2}=3.2 \mathrm{~N} \mathrm{~m}^{-1}$ and a block having mass \(\mathrm{m}=200 \mathrm{~g}\) are placed on a frictionless horizontal surface. One end of both springs are attached to rigid supports. The distance between the free ends of the spring is \(60 \mathrm{~cm}\) and the block is moving in this gap with a speed \(\mathrm{v}=120 \mathrm{~cm} \mathrm{~s}^{-1}\).What will be the periodic time of the block, between the two springs? (A) \(1+(5 \pi / 6) \mathrm{s}\) (B) \(1+(7 \pi / 6) \mathrm{s}\) (C) \(1+(5 \pi / 12) \mathrm{s}\) (D) \(1+(7 \pi / 12) \mathrm{s}\)

For the following questions, statement as well as the reason(s) are given. Each questions has four options. Select the correct option. (a) Statement \(-1\) is true, statement \(-2\) is true; statement \(-2\) is the correct explanation of statement \(-1\). (b) Statement \(-1\) is true, statement \(-2\) is true but statement \(-2\) is not the correct explanation of statement \(-1\). (c) Statement \(-1\) is true, statement \(-2\) is false (d) Statement \(-1\) is false, statement \(-2\) is true (A) a (B) \(\mathrm{b}\) (C) \(\mathrm{c}\) (D) \(\mathrm{d}\) Statement \(-1:\) The periodic time of a S.H.O. depends on its amplitude and force constant. Statement \(-2:\) The elasticity and inertia decides the frequency of S.H.O. (A) a (B) \(b\) (C) c (D) \(\mathrm{d}\)

Two monoatomic ideal gases 1 and 2 has molecular weights \(\mathrm{m}_{1}\) and \(\mathrm{m}_{2}\). Both are kept in two different containers at the same temperature. The ratio of velocity of sound wave in gas 1 and 2 is $\ldots \ldots \ldots$ (A) \(\sqrt{\left(m_{2} / m_{1}\right)}\) (B) \(\sqrt{\left(m_{1} / m_{2}\right)}\) (C) \(\left(\mathrm{m}_{1} / \mathrm{m}_{2}\right)\) (D) \(\left(\mathrm{m}_{2} / \mathrm{m}_{1}\right)\)
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