Problem Statement
A planet moves in an elliptical orbit around the Sun. At perihelion it is at distance r₁ and has speed v₁. Find its speed v₂ at aphelion (distance r₂).
Given
Ellipse: r₁ = perihelion, r₂ = aphelion. v₁ at perihelion. Gravity is central force.
Concepts & Formulas
Angular momentum conservation (Kepler’s 2nd law): L = m·v₁·r₁ = m·v₂·r₂ (since v ⊥ r at both extrema).
Step-by-Step Solution
Step 1: At perihelion and aphelion, velocity is perpendicular to radius vector.
Step 2: L = mv₁r₁ = mv₂r₂.
Step 3: v₂ = v₁r₁/r₂.
Worked Calculation
v₂ = v₁r₁/r₂.
Boxed Answer
v₂ = v₁r₁/r₂
Physical Interpretation
The planet moves fastest at perihelion and slowest at aphelion — a direct consequence of angular momentum conservation and the geometry of the ellipse.
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