Acceleration of an object on earth by applying the force 'F' is 'a'. To achieve the same acceleration on the moon, will the net force acting on the object be greater than, less than, or the same as that required on earth?
please explain
Answers
The same net force would be required for a given acceleration on the Moon as on the Earth.
Explanation:
The net force required to accelerate the object is specified by the Newton's second law as F=ma where 'm' is the object's mass and 'a' is the acceleration along the ground. For a given acceleration, the net force depend only on the mass. But the mass of the object is the same on the Moon as it is on the Earth. Therefore, the same net force would be required for a given acceleration on the Moon as on the Earth.
Answer:
The same net force would be required for a given acceleration on the Moon as on the Earth.
Explanation:
The net force required to accelerate the object is specified by the Newton's second law as F=ma where 'm' is the object's mass and 'a' is the acceleration along the ground. For a given acceleration, the net force depend only on the mass. But the mass of the object is the same on the Moon as it is on the Earth. Therefore, the same net force would be required for a given acceleration on the Moon as on the Earth.