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Inertia force is a weight of a body and restoring force is a self force applied by a body itself for restoration of its configuration to attend the equilibrium.
If the horizontal velocity is constant, then the horizontal acceleration is zero,and the net horizontal force is zero.But if you are saying that the body was in constant motion and after that the force was applied, then the body will acccelerate because of the force. The net force applied on the body would be equal to the force applied to it when the body was in constant motion as here the force is in direction of the motion and hence the angle will be 0 giving the value of cos 0º as 1. Hence there would be no reduction in the net force
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.
when the reactive force is less as compared to the applied force on the body then a deformation occurs in the body.
no
Inertia force is a weight of a body and restoring force is a self force applied by a body itself for restoration of its configuration to attend the equilibrium.
That is difficult to answer in that a horizontal force may be perpendicular to the body. So, the question does not differentiate between "can a vertical force cancel a horizontal force?" and "can a horizontal force cancel a horizontal force?" The best answer is, yes: two opposite and equal horizontal forces, both perpendicular to a body, will cancel each other.
The acceleration depends on the net force. So, you must add the forces together as vectors. The result in this case depends in what direction the force is applied.
If the horizontal velocity is constant, then the horizontal acceleration is zero,and the net horizontal force is zero.But if you are saying that the body was in constant motion and after that the force was applied, then the body will acccelerate because of the force. The net force applied on the body would be equal to the force applied to it when the body was in constant motion as here the force is in direction of the motion and hence the angle will be 0 giving the value of cos 0º as 1. Hence there would be no reduction in the net force
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
Acceleration is in the same direction as the applied force.
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.
The Law of Applied Force states that a body's change in mass is proportional to the amount of force applied to it.
when the reactive force is less as compared to the applied force on the body then a deformation occurs in the body.
It is acceleration in the horizontal direction. This would happen as a result of a net horizontal force acting on a body.
How the weight of the body is balanced in a horizontal circle?
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