Free Fall
A force acting on a body accelerates it in the direction of the force.
A body in uniform motion has no net force acting on it. That means that either there are no forces at all, or else that all the forces acting on it add up to zero.
Free falling.
"The condition of equilibrium or motion of a rigid body is remain unchanged, if a force acting on the rigid body is replaced by another force of the same magnitude and same direction but, acting anywhere along the same line of action."
A force acting on the body, along its line of motion.
zero velocity =)
A body can execute circular motion only if there's a force acting on it, directedtowards the center of the circle. Without that force, circular motion isn't possible.If you expected us to get into "centrifugal" force, forget about it. No such force exists.
Motion does not require a force; if no force is acting on a body in motion, its motion will be constant. A force is required to change motion, and any unbalanced force acting on an object can do this.
no. a force acting perpendicularly on a body cannot cancel a force which is acting horizontally on the same body.!!!!
The motion in a body depends on the the balanced or unbalanced forces acting on it. If the sum of the forces is 0 then it is a balanced force and produces no motion if the sum of the forces isn't 0 then it is unbalanced force. The body will move in the direction in which the force is applied. That's about it
The motion in a body depends on the the balanced or unbalanced forces acting on it. If the sum of the forces is 0 then it is a balanced force and produces no motion if the sum of the forces isn't 0 then it is unbalanced force. The body will move in the direction in which the force is applied. That's about it
The answer to the question is in the formula, P = mf, where P = force applied, m = mass of the body and f = acceleration of the body. It also depends on the direction of the force. If the force is towards the motion of the body, the acceleration of the body will increase. If in case the force is acting against the direction of motion of the body, the acceleration will decrease.