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Inertia is the tendency of an object to resist changes in its motion. When a force of zero is applied to an object, its inertia will not be affected because there is no net force acting on the object to cause a change in its motion. The object will continue to move at a constant velocity or remain at rest due to its inertia.
Acceleration is not directly proportional to the angle of inclination. Acceleration depends on the force acting on an object, with the angle of inclination affecting the components of the force acting along different axes. Therefore, acceleration can vary with the angle of inclination but is not directly proportional.
If a force is applied to an object, the object's motion will change according to Newton's second law of motion. The object will accelerate in the direction of the force applied.
The force acting on an object over a period of time will change its momentum. The greater the force applied or the longer it is applied, the greater the change in the object's momentum. This relationship is described by Newton's second law of motion, which states that the change in momentum is equal to the force applied multiplied by the time it is applied for.
The change in an object's momentum is equal to the impulse applied to the object. Impulse is the product of the force applied to the object and the time over which the force is applied. Mathematically, impulse = force * time = change in momentum.
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
Inertia is the tendency of an object to resist changes in its motion. When a force of zero is applied to an object, its inertia will not be affected because there is no net force acting on the object to cause a change in its motion. The object will continue to move at a constant velocity or remain at rest due to its inertia.
An increase in applied force will cause the object to accelerate.
Acceleration is not directly proportional to the angle of inclination. Acceleration depends on the force acting on an object, with the angle of inclination affecting the components of the force acting along different axes. Therefore, acceleration can vary with the angle of inclination but is not directly proportional.
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
If a force is applied to an object, the object's motion will change according to Newton's second law of motion. The object will accelerate in the direction of the force applied.
The force acting on an object over a period of time will change its momentum. The greater the force applied or the longer it is applied, the greater the change in the object's momentum. This relationship is described by Newton's second law of motion, which states that the change in momentum is equal to the force applied multiplied by the time it is applied for.
There is no such object. Any object on which a force is applied will accelerate (i.e., its velocity will change over time). If the object has a very large mass, the effect will be hardly noticeable for any given force.
It is a force or applied force.
The change in an object's momentum is equal to the impulse applied to the object. Impulse is the product of the force applied to the object and the time over which the force is applied. Mathematically, impulse = force * time = change in momentum.
the amount of force needed to perform the task the distance over which the force is applied the direction in which the force is applied
the amount of force needed to perform the task the distance over which the force is applied the direction in which the force is applied