Question

O vind NGUVE SYNVA d. What two factors may enable a rocket to maintain path C? If two rockets moving at the same speed pass at different distances from a planet, which motion is "bent" the most; the one passing closer or further from the planet? There are wa remain on a face gravity is one way that the ele may be retai e. The next lf the solution for helium? f. In the diagram below, which planet's mass is largest, judging from the space ship paths? (Assume each has the same velocity and passes at the same distance.) 9. The principal surface temp introduction parts a-k of Planet A Planet B 8. Sun Sun The concepts of surface gravity and escape velocity can be used to study the question of how long an atmosphere can stay with a planet. The average energy of motion (kinetic energy) of atoms and molecules in a gas is directly proportional to the temperature (°K) of the gas. Thus atoms in an atmosphere at a high temperature move with more energy than atoms in an atmosphere at low temper- ature. This energy of motion depends on two things: (1) the mass of the atom and (2) the square of the velocity, and is given by energy a my?. Using these principles answer parts a -e of this question. a. The dia labeled the sun Neither have sir have the b. If a pl 100%). absorb be war

Answer 1

PART E

GRAVITATIONAL FORCE ACTING ON A BODY IS INVERSELY PROPORTIONAL TO SQUARE OF DISTANCE BETWEEN THE BODIES

SO HIGHER THE DISTANCE LESSER IS THE FORCE AND LESSER IS THE BENDING AND VICE VERSA

SO ROCKET MOVING CLOSER WILL BENT MORE

PART F

GRAVITATIONAL FORCE ACTING ON A BODY IS DIRECTLY PROPORTIONAL TO THE MASS OF THE BODIES IN WHICH GRAVITATIONAL INTERACTION IS THERE

SO HIGHER IS THE MASS , MORE IS THE FORCE AND HENCE MORE IS THE BENDING

SO PLANET B WILL HAVE MORE MASS