Scientists launch a rocket, and they monitor its acceleration and the force exerted by its engines. As the rocket gets higher, the monitors show that the acceleration of the rocket is increasing but the force exerted stays the same. How do Newton's laws explain why the scientists could expect this to happen

A) The total force stays the same, but the action force is increasing as the reaction decreases.

B) The mass of the rocket decreases as fuel is burned, so the acceleration increases.

C) The inertia of the rocket increases, which reduces the force needed to change its speed.

D) The reaction force is increasing as fuel is burned, which causes a greater acceleration.

Question

Trace Lawson

Physics

30 June, 08:15

Scientists launch a rocket, and they monitor its acceleration and the force exerted by its engines. As the rocket gets higher, the monitors show that the acceleration of the rocket is increasing but the force exerted stays the same. How do Newton's laws explain why the scientists could expect this to happen

A) The total force stays the same, but the action force is increasing as the reaction decreases.

B) The mass of the rocket decreases as fuel is burned, so the acceleration increases.

C) The inertia of the rocket increases, which reduces the force needed to change its speed.

D) The reaction force is increasing as fuel is burned, which causes a greater acceleration.

+4

Answers (1)

Know the Answer?

Kyan Lindsey · Answer 1

Newton's second law states that the force exerted on an object is directly proportional to the object's acceleration;

F = ma

Here, F is the net force acting on the object. If the rocket's thrust is the same, then the force in the opposite direction, which is its weight, must be decreasing for the net force to be increasing.

Therefore, the answer is B.