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The inertial mass of an object can be determined by measuring the force needed to accelerate the object at a certain rate using the formula Fma, where F is the force applied, m is the inertial mass, and a is the acceleration. By rearranging the formula to solve for m, the inertial mass of the object can be calculated.

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How can one accurately measure inertial mass?

Inertial mass can be accurately measured by using a balance scale and comparing the force needed to accelerate an object to a known acceleration. This method is based on Newton's second law of motion, which states that force is equal to mass times acceleration. By measuring the force and acceleration, one can calculate the inertial mass of an object.


What simple observation confirms that gravitational mass and inertial mass are equal?

One simple observation is that when objects of different masses are dropped in a vacuum, they accelerate at the same rate towards the ground. This indicates that the gravitational force experienced by each object is directly proportional to its inertial mass.


Name at least two factors that determine force of impact?

The speed or velocity of the object before impact and the mass of the object are two important factors that determine the force of impact. The greater the speed or mass of the object, the higher the force of impact will be.


How can one determine the friction force when given the mass and acceleration of an object?

To determine the friction force when given the mass and acceleration of an object, you can use the formula: friction force mass x acceleration. This formula helps calculate the force resisting the motion of the object due to friction.


How can one determine mass from weight and what is the relationship between the two?

Mass is a measure of the amount of matter in an object, while weight is the force of gravity acting on that object. To determine mass from weight, you can use the formula: mass weight / acceleration due to gravity. The relationship between mass and weight is that weight is directly proportional to mass, meaning that as the mass of an object increases, its weight also increases.

Related Questions

How can one accurately measure inertial mass?

Inertial mass can be accurately measured by using a balance scale and comparing the force needed to accelerate an object to a known acceleration. This method is based on Newton's second law of motion, which states that force is equal to mass times acceleration. By measuring the force and acceleration, one can calculate the inertial mass of an object.


How are gravitational mass and inertial mass alike?

The idea here is that if - for example - one object has twice the inertia than another (i.e., twice the "inertial mass"), its reaction to gravity (its "gravitational mass") will also be twice as much. Thus, the gravitational mass and the inertial mass are directly proportional to one another, and you can just as well choose the proportionality constant to be one, making them equal.


What simple observation confirms that gravitational mass and inertial mass are equal?

One simple observation is that when objects of different masses are dropped in a vacuum, they accelerate at the same rate towards the ground. This indicates that the gravitational force experienced by each object is directly proportional to its inertial mass.


What do you determine mass with?

A balanced scale, which compares the mass of one object with that of another.


Name at least two factors that determine force of impact?

The speed or velocity of the object before impact and the mass of the object are two important factors that determine the force of impact. The greater the speed or mass of the object, the higher the force of impact will be.


Does a bowling ball on earth have more inertia than one on the moon?

No, a bowling ball (or any other object) has exactly the same inertial mass no matter where it is (its actual inertia will, of course, depend upon its velocity as well as its inertial mass). Weight changes on the moon, but inertia doesn't.


How can one determine the friction force when given the mass and acceleration of an object?

To determine the friction force when given the mass and acceleration of an object, you can use the formula: friction force mass x acceleration. This formula helps calculate the force resisting the motion of the object due to friction.


What is the apparatus called to measure mass?

A balanced scale, which compares the mass of one object with that of another.


How can one determine mass from weight and what is the relationship between the two?

Mass is a measure of the amount of matter in an object, while weight is the force of gravity acting on that object. To determine mass from weight, you can use the formula: mass weight / acceleration due to gravity. The relationship between mass and weight is that weight is directly proportional to mass, meaning that as the mass of an object increases, its weight also increases.


How can one determine velocity from impulse?

To determine velocity from impulse, you can use the formula: Impulse Force x Time Change in Momentum. By knowing the impulse and the mass of the object, you can calculate the change in momentum. Then, by dividing the change in momentum by the mass of the object, you can determine the velocity.


Which term is the measuerment for the force of gravity weightmass or inertia?

The force of gravity on an object is its weight. Masses come in two types, which are thought to be equal. Inertial mass is one type, and gravitational mass is the other type, and, repeating, they are thought to be the same.


How can one determine the force exerted by an object based on its velocity?

The force exerted by an object can be determined based on its velocity by using the formula: force mass x acceleration. When an object is moving at a certain velocity, its acceleration can be calculated using the change in velocity over time. By multiplying the mass of the object by its acceleration, one can determine the force exerted.