Question:
A satellite of mass \( m \), revolving round the earth of radius \( r \), has kinetic energy \( E \). Its angular momentum is
A satellite of mass \( m \), revolving round the earth of radius \( r \), has kinetic energy \( E \). Its angular momentum is
Show Hint
Always express velocity from kinetic energy when angular momentum is asked in terms of \( E \).
Updated On: Jan 26, 2026
- \( (mEr^2)^{1/2} \)
- \( (mEr^2) \)
- \( (2mEr^2)^{1/2} \)
- \( (2mEr^2) \)
Hide Solution
Verified By Collegedunia
The Correct Option is C
Solution and Explanation
Step 1: Write expression for kinetic energy.
For a satellite in circular orbit, \[ E = \frac{1}{2}mv^2 \]
Step 2: Express velocity in terms of kinetic energy.
\[ v = \sqrt{\frac{2E}{m}} \]
Step 3: Write expression for angular momentum.
\[ L = mvr \]
Step 4: Substitute the value of velocity.
\[ L = m r \sqrt{\frac{2E}{m}} = \sqrt{2mEr^2} \]
Step 5: Conclusion.
The angular momentum of the satellite is \[ L = (2mEr^2)^{1/2}. \]
For a satellite in circular orbit, \[ E = \frac{1}{2}mv^2 \]
Step 2: Express velocity in terms of kinetic energy.
\[ v = \sqrt{\frac{2E}{m}} \]
Step 3: Write expression for angular momentum.
\[ L = mvr \]
Step 4: Substitute the value of velocity.
\[ L = m r \sqrt{\frac{2E}{m}} = \sqrt{2mEr^2} \]
Step 5: Conclusion.
The angular momentum of the satellite is \[ L = (2mEr^2)^{1/2}. \]
Was this answer helpful?
0
0
Top Questions on Gravitation
- In the given situation, the force at the center on 1 kg mass is \( F_1 \). Now if \( 4m \) and \( 3m \) are interchanged, the force is \( F_2 \). Given \( \frac{F_1}{F_2} = \frac{2}{\sqrt{\alpha}} \), find \( \alpha \).
- JEE Main - 2026
- Physics
- Gravitation
- Three masses m\(_{1}\) = 200 kg, m\(_{2}\) = 300 kg and m\(_{3}\) = 400 kg are kept at the vertices of on equilateral triangle of side 20 m. If the masses are shifted to new configuration such that they are at the vertices of an equilateral triangle of 25 m now. Find the work done in this process :
- JEE Main - 2026
- Physics
- Gravitation
- A planet 'A' having density \( \rho \) and radius \( R \) has escape velocity \( = 10 \, \text{km/sec} \). Find the escape velocity of a planet B having density and radius both 10% that of planet A.
- JEE Main - 2026
- Physics
- Gravitation
- Escape velocity from a planet of radius \(R\) and density \(\rho\) is given as \(10\,\text{km s}^{-1}\). Find the escape velocity from a planet of radius \(\dfrac{R}{10}\) and density \(\dfrac{\rho}{10}\).
- JEE Main - 2026
- Physics
- Gravitation
- A satellite is revolving around a planet in orbit radius of 1.5 R. Additional minimum energy required to transfer the satellite to the new orbit radius of 3R is (G and M are mass of satellite \& planet)
- JEE Main - 2026
- Physics
- Gravitation
View More Questions
Questions Asked in MHT CET exam
- If $ f(x) = 2x^2 - 3x + 5 $, find $ f(3) $.
- MHT CET - 2025
- Functions
- Evaluate the definite integral: \( \int_{-2}^{2} |x^2 - x - 2| \, dx \)
- MHT CET - 2025
- Definite Integral
- There are 6 boys and 4 girls. Arrange their seating arrangement on a round table such that 2 boys and 1 girl can't sit together.
- MHT CET - 2025
- permutations and combinations
- Given the equation: \[ 81 \sin^2 x + 81 \cos^2 x = 30 \] Find the value of \( x \).
- MHT CET - 2025
- Trigonometric Identities
- Evaluate the integral: \[ \int \frac{1}{\sin^2 2x \cdot \cos^2 2x} \, dx \]
- MHT CET - 2025
- Trigonometric Identities
View More Questions