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Does The Law of Applied Force state that a body's change in mass is proportional to the amount of force applied to it?
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
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Does the law of applied forced state that a body's change in mass is proportional to the amount of force applied to it?
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
The law of applied for states that bodies change in mass and proportional to the amount of force applied to it true or false?
The law of applied for states that bodies change in mass and proportional to the amount of force applied to it is false.
Does the law of applied forces state that a body's change in mass is proportional to the amount of force applied to it?
No, the law of applied forces does not state that a body's change in mass is proportional to the amount of force applied to it. The law of applied forces states that the force applied to a body is equal to the mass of the body multiplied by the acceleration of the body. So, if the acceleration of a body increases, the force applied to it will also increase, but the mass of the body will remain the same.
True or false the law of applied forces states that a body's change in mass is proportional to the amount of force applied to it?
The statement is not only false, but absurd as well.
How is a change in an object's direction related to the applied force?
A change in an object's direction is related to the applied force through Newton's second law of motion, which states that the acceleration of an object is directly proportional to the net force acting on it and inversely proportional to its mass. When a force is applied in a different direction than the object's velocity, it causes the object to change its direction by accelerating it in the new direction.
How does changing the force applied to an object change the acceleration of the object?
Increasing the force applied to an object will result in an increase in the acceleration of the object, given that the mass remains constant. This relationship is described by Newton's second law of motion, which states that acceleration is directly proportional to the force applied and inversely proportional to the mass of the object.
What is applied to an object by a certain amount the acceleration will change by the same amount?
net force
What will make an object accelerate?
An object will accelerate when an external force is applied to it. This force overcomes any resistance or inertia the object may have, causing it to change velocity. The acceleration of an object is directly proportional to the magnitude of the force applied and inversely proportional to the object's mass.
How is motion mass and force related?
Motion is the result of force being applied to an object with mass. Newton's second law of motion states that the acceleration of an object is directly proportional to the net force applied to it and inversely proportional to its mass. In other words, the greater the force applied to an object with a certain mass, the greater its acceleration or change in motion will be.
The law applied force states that a body's change in mass is proportional to the amount of force applied to it?
There is no such law. Newton's Second Law states that: force = mass x acceleration So, more force will produce more acceleration. More mass will result in less acceleration. However, the mass of a body usually doesn't change - but you can use this law to compare the same force applied to different objects, of a different mass.
What is the amount of force applied to an object over a certain amount of time equal to?
The amount of force applied to an object over a certain amount of time is equal to its impulse, which is the product of force and time. Impulse helps to quantify the change in momentum of an object due to the force applied to it over a period of time.
What can produce motion?
Forces produce motion. Change in motion is directly proportional to applied force (Newton 2nd Law of Motion).
