MHT CET · Physics · Oscillations
A particle is executing a linear simple harmonic motion. Let ' \(\mathrm{V}_1\) ' and ' \(\mathrm{V}_2\) ' are its speed at distance ' \(x_1\) ' and ' \(x_2\) ' from the equilibrium position. The amplitude of oscillation is
- A \(\sqrt{\frac{V_1^2 x_2^2-V_2^2 x_2^2}{V_1^2-V_2^2}}\)
- B \(\sqrt{\frac{V_1^2-V_2^2}{V_1^2 x_2^2-V_2^2 x_1^2}}\)
- C \(\sqrt{\frac{V_1^2 x_2^2-V_2^2 x_1^2}{V_1^2-V_2^2}}\)
- D \(\sqrt{\frac{V_1^2 x_1^2-V_2^2 x_2^2}{V_1^2-V_2^2}}\)
Answer & Solution
Correct Answer
(A) \(\sqrt{\frac{V_1^2 x_2^2-V_2^2 x_2^2}{V_1^2-V_2^2}}\)
Step-by-step Solution
Detailed explanation
For S.H.M, velocity is given by,
\(\begin{aligned}
& \quad V=\omega \sqrt{A^2-x^2} \Rightarrow V^2=\omega^2\left(A^2-x^2\right)...(i) \\
& \therefore \quad V_1^2=\omega^2\left(A^2-x_1^2\right) \\
& \text { and } V_2^2=\omega^2\left(A^2-x_2^2\right) ...[From(i)]\\
& \frac{V_1^2}{V_2^2}=\frac{\omega^2\left(A^2-x_1^2\right)}{\omega^2\left(A^2-x_2^2\right)} \\
& V_1^2\left(A^2-x_2^2\right)=V_2^2\left(A^2-x_1^2\right) \\
& A=\sqrt{\frac{V_1^2 x_2^2-V_2^2 x_1^2}{V_1^2-V_2^2}}
\end{aligned}\)
\(\begin{aligned}
& \quad V=\omega \sqrt{A^2-x^2} \Rightarrow V^2=\omega^2\left(A^2-x^2\right)...(i) \\
& \therefore \quad V_1^2=\omega^2\left(A^2-x_1^2\right) \\
& \text { and } V_2^2=\omega^2\left(A^2-x_2^2\right) ...[From(i)]\\
& \frac{V_1^2}{V_2^2}=\frac{\omega^2\left(A^2-x_1^2\right)}{\omega^2\left(A^2-x_2^2\right)} \\
& V_1^2\left(A^2-x_2^2\right)=V_2^2\left(A^2-x_1^2\right) \\
& A=\sqrt{\frac{V_1^2 x_2^2-V_2^2 x_1^2}{V_1^2-V_2^2}}
\end{aligned}\)
See the Complete Solution
Get step-by-step explanations for this and 2.5 Lakh+ more JEE, NEET & CET questions.
- Unlock all solutions
- Practice the full chapter
- Track accuracy across PYQs
4.8 rated on Google Play · 14,000+ reviews
More questions from Physics
- A uniformly charged semicircular arc of radius ' \(r\) ' has linear charge density \((\lambda)\). What is the electric field at its centre?
( \(\epsilon_0=\) permittivity of free space)MHT CET 2021 Medium - Two circular coils \(P\) and \(Q\) are made from similar wire, but radius of \(Q\) is twice that of \(P\). What should be the value of potential difference across them so that the magnetic induction at their centre may be same?MHT CET 2011 Easy
- A sonometer wire stretched by weight ' \(w\) ' is in unison with a tuning fork. The corresponding resonating length is ' \(\mathrm{L}_1\) ' if the weight is increased by ' \(3 w\) ' the corresponding resonating length of the sonometer in unison tuning fork becomes ' \(\mathrm{L}_2\).' . The ratio \(\left(\frac{\mathrm{L}_1}{\mathrm{~L}_2}\right)\) isMHT CET 2022 Medium
- A pendulum clock is running fast. To correct its time, we shouldMHT CET 2021 Easy
- An ideal gas of molar mass ' \(\mathrm{M}_0\) ' has r.m.s. velocity ' \(\mathrm{V}\) ' at temperature ' \(\mathrm{T}\) '. ThenMHT CET 2021 Easy
- A double slit experiment is immersed in water of refractive index 1.33. The slit separations \(1 \mathrm{~mm}\) and the distance between slit and screen is \(1.33 \mathrm{~m}\). The slits are illuminated by a light of wavelength \(6300 Å\). The fringe width isMHT CET 2021 Hard
More PYQs from MHT CET
- If
\(\int(7 x-2) \sqrt{3 x+2} \mathrm{~d} x=\mathrm{A}(3 x+2)^{\frac{5}{2}}+\mathrm{B}(3 x+2)^{\frac{3}{2}}+\mathrm{c}\)
(where c is a constant of integration), then the values of \(A\) and \(B\) are respectivelyMHT CET 2024 Easy - If the slopes of the lines given by the equation \(a x^2+2 h x y+b y^2=0\) are in the ratio \(5: 3\), then ration \(h^2: a b=\)MHT CET 2021 Medium
- For isochoric process, the first law of thermodynamics can be expressed asMHT CET 2021 Medium
- Calculate percentage atom economy when 46 g ethanol is obtained from 64.5 g chloroethane and \(56 \mathrm{~g~} \mathrm{KOH} (\mathrm{aq})\)MHT CET 2025 Medium
- If \(A=\left[\begin{array}{cc}\mathrm{k} & 2 \\ -2 & -\mathrm{k}\end{array}\right]\), then \(\mathrm{A}^{-1}\) does not exists if \(\mathrm{k}=\)MHT CET 2021 Easy
- Flame cell are also called _A and they are found in animals like B.MHT CET 2021 Medium