3. Two planets with the same diameter are close to each other, as shown. One planet has twice the mass as the other planet. (a) At which locations would both planets' gravitational force pull on you in the same direction? (b) Where would you stand so that the force of gravity acting 1 p on you is a maximum? * A D 2m т O 1. (a) A and B (b) D O 2 (a) A and C (b) A O 3 (a) A and D (b) A 4 (a) B and C (b) D O 5 (a) A and D (b) D 8. Consider the orbit of a typical comet around the sun, which is marked at five different positions, S, Z, U, X, and P. Applying Kepler's 2nd law of planetary motion, rank these positions in order of their relative speeds, with the position for the greatest speed first. * 1 point и Sun O 1. SUZXP O 2. PZXUS O 3. SUXZP O 4. XZ PSU O 5. SUXZP
3. Two planets with the same diameter are close to each other, as shown. One planet has twice the mass as the other planet. (a) At which locations would both planets' gravitational force pull on you in the same direction? (b) Where would you stand so that the force of gravity acting 1 p on you is a maximum? * A D 2m т O 1. (a) A and B (b) D O 2 (a) A and C (b) A O 3 (a) A and D (b) A 4 (a) B and C (b) D O 5 (a) A and D (b) D 8. Consider the orbit of a typical comet around the sun, which is marked at five different positions, S, Z, U, X, and P. Applying Kepler's 2nd law of planetary motion, rank these positions in order of their relative speeds, with the position for the greatest speed first. * 1 point и Sun O 1. SUZXP O 2. PZXUS O 3. SUXZP O 4. XZ PSU O 5. SUXZP
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