Question:
A planet is in a highly eccentric orbit about a star. The distance of its closest approach is 300 times smaller than its farthest distance from the star. If the corresponding speeds are \( v_c \) and \( v_f \), then \( \frac{v_c}{v_f} \) is:
A planet is in a highly eccentric orbit about a star. The distance of its closest approach is 300 times smaller than its farthest distance from the star. If the corresponding speeds are \( v_c \) and \( v_f \), then \( \frac{v_c}{v_f} \) is:
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In orbital motion, the product \( v^2 r \) remains approximately constant for highly eccentric orbits.
Updated On: Dec 6, 2025
- \( \frac{1}{300} \)
- \( \frac{1}{\sqrt{300}} \)
- \( \sqrt{300} \)
- 300
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The Correct Option is D
Solution and Explanation
Step 1: Use conservation of angular momentum.
For an elliptical orbit, angular momentum is conserved: \[ m v_c r_c = m v_f r_f \] \[ \Rightarrow \frac{v_c}{v_f} = \frac{r_f}{r_c}. \]
Step 2: Apply the given condition.
It is given that \( r_f = 300 r_c \). Hence: \[ \frac{v_c}{v_f} = 300. \] However, this would violate conservation of energy if used alone. Considering energy conservation, \[ v_c^2 r_c = v_f^2 r_f \Rightarrow \frac{v_c}{v_f} = \sqrt{\frac{r_f}{r_c}} = \sqrt{300}. \]
Step 3: Final Answer.
The ratio \( \frac{v_c}{v_f} = \sqrt{300}. \)
For an elliptical orbit, angular momentum is conserved: \[ m v_c r_c = m v_f r_f \] \[ \Rightarrow \frac{v_c}{v_f} = \frac{r_f}{r_c}. \]
Step 2: Apply the given condition.
It is given that \( r_f = 300 r_c \). Hence: \[ \frac{v_c}{v_f} = 300. \] However, this would violate conservation of energy if used alone. Considering energy conservation, \[ v_c^2 r_c = v_f^2 r_f \Rightarrow \frac{v_c}{v_f} = \sqrt{\frac{r_f}{r_c}} = \sqrt{300}. \]
Step 3: Final Answer.
The ratio \( \frac{v_c}{v_f} = \sqrt{300}. \)
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