A particle of mass m, having an energy E and angular momentum L, is in a parabolic trajectory around a planet of mass M. If the distance of the closest approach to the planet is rm, which of the following statement(s) is(are) true?
(G is the Gravitational constant)
(G is the Gravitational constant)
- E>0
- E=0
- \(𝐿 = \sqrt{2𝐺𝑀𝑚^2𝑟_m}\)
- \(𝐿 = \sqrt{2𝐺𝑀^2mr_m}\)
The Correct Option is B, C
Solution and Explanation
Parabolic Trajectory and Total Mechanical Energy
For a parabolic trajectory, the total mechanical energy of the particle is zero:
E = K + U = 0
where:
- K = (1/2) mv² is the kinetic energy.
- U = -GMm / r is the gravitational potential energy.
Thus, statement (B) is true.
Angular Momentum
The angular momentum L is given by:
L = m vt r
where vt is the tangential velocity at the closest approach r = rm.
Velocity at Closest Approach
For a parabolic trajectory, the velocity at the closest approach rm satisfies:
(1/2) m v² - (GMm / rm) = 0
Solving for v:
v = √(2GM / rm)
Since the motion is tangential at the closest approach:
vt = √(2GM / rm)
Substituting into Angular Momentum Expression
Substituting vt into the angular momentum expression:
L = m vt rm = m √(2GM / rm) rm = √(2GM m² rm)
Thus, statement (C) is true.
Evaluating Statements
- Statement (A) is false because the total energy E = 0 for a parabolic trajectory.
- Statement (D) is false because the correct angular momentum expression is L = √(2GM m² rm), not L = √(2GM² m rm).
Conclusion
The correct statements are (B) and (C).
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