### Solution:

The given statement is true.Concept- The relationship between the force exerted on a body and the acceleration that body experiences is provided by Newton's second law of motion. We can determine which force is stronger by calculating the amounts of force in the two examples presented.

Newton's second law of motion is given as

$F=\mathit{ma}$

Consider the first example that was presented to us. The object's mass is shown as This mass's quantity of acceleration is expressed as

Newton's second law of motion, which states that the amount of force exerted on a body of a certain mass is equal to the sum of the mass of the body and the amount of acceleration created in that body, may be used to determine the force that has caused this acceleration. Therefore, we may say that in the first instance.

When you enter the known values, you obtain

Similar to the first instance, the second example specifies the object's mass as This mass's quantity of acceleration is expressed as

We may state it using Newton's second law of motion.

When you enter the known values, you obtain

We can observe that the first case's force application is bigger than the second case's force application.

Hence, the given statement is true.