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Q: Need the same amount of force to throw a basketball 3 meters as you need to throw a golf ball three meters true or false and why?

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No you do not need the same amount of force to throw a basketball 3 meters as you would need to throw a golf ball 3 meters. The amount of force required to throw a basketball 3 meters depends on several factors: The weight of the ball: Basketballs are much heavier than golf balls. The size of the ball: Basketballs are much larger than golf balls. The amount of air resistance: Basketballs are much more aerodynamic than golf balls.Therefore you would need to generate more force to throw a basketball 3 meters than you would to throw a golf ball 3 meters.

To answer this question and ones like it, try exaggerating. Does it take the same amount of force to throw a cannon ball 3 meters as it does to throw a golf ball 3 meters?

Newtonian force The amount of force is measured by its ability to stretch or compress a spring.

The law of applied for states that bodies change in mass and proportional to the amount of force applied to it is false.

False. Work is defined as the product of the force applied on an object and the distance over which it travels. In this case, if the distance traveled is 0 meters, then no work is being done on the object regardless of the force applied (25 N in this scenario).

The amount of force with which an object is pulled down to Earth is known as the force of gravity. On Earth, this force is approximately 9.81 meters per second squared (m/s^2).

When a force of 2N moves an object 3 meters, the work done is 6 Joules (2N * 3m). When a force of 3N moves an object 2 meters, the work done is 6 Joules as well (3N * 2m). Consequently, the same amount of work (6 Joules) is done in both scenarios.

The statement is not only false, but absurd as well.

The force at the box would remain the same is true.

False. Work is directly proportional to the distance applied. The amount of work done increases as the distance over which the force is applied increases.

A force meter typically uses units of measurement such as newtons (N) or pounds-force (lbf) to measure force. These units quantify the amount of force being applied to an object.

The force of gravity acting on a basketball is approximately 9.8 m/s^2, which is the acceleration due to gravity on Earth. This force causes the basketball to fall towards the ground when it is in the air and provides the weight of the basketball when it is at rest on the ground.