Question

The mass of a body which is equal to the ratio of the force acting on a body to the acceleration produced in the body is..?

Answer 1

Answer:

because of gravitational force

Explanation:

hope it helps______________

Answer 2

The correct answer is (d) the inertial mass.

Explanation:

• The mass of a body which is equal to the ratio of the force acting on a body to the acceleration produced in the body is the inertial mass.
• A mass parameter giving the inertial resistance to acceleration of the body when responding to all types of force is known as the inertial mass.
• It is calculated by applying a known force to an unknown mass, measuring the acceleration, and then applying Newton's Second Law, m = F/a.

This question is incomplete, the complete question is:

The mass of a body which is equal to the ratio of the force acting on a body to the acceleration produced in the body is

(a) the gravitational mass

(b) the electromagnetic mass

(c) the internal mass

(d) the inertial mass