Net force.
When the net forces acting on an object sum to zero then the object's acceleration is zero.
Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.
The direction of the net force acting on the object at position A depends on the individual forces acting on the object. If the net force is the vector sum of all forces, the direction will be determined by the relative magnitudes and directions of those individual forces.
Yes, balancing the forces acting on an object involves ensuring that the sum of all forces is zero, which means there is no net force acting on the object. This equilibrium condition results in the object either remaining at rest or moving at a constant velocity.
In that case, the sum of all forces must be zero.
When the net forces acting on an object sum to zero then the object's acceleration is zero.
The term that describes the vector sum of all forces acting on an object is "net force." Net force takes into account both the magnitude and direction of all individual forces acting on the object.
Net force.
that is called the net force; it is a vector sum of all the forces acting on it
The sum of all forces acting on an object is called the net force. It is the overall force that accounts for both the magnitude and direction of all individual forces acting on the object. The net force determines the motion of the object according to Newton's laws of motion.
zero
The net force.
The resulting or net force.
To find the net force acting on an object, you need to sum up all the individual forces acting on the object. If the forces are in the same direction, add them. If they are in opposite directions, subtract the smaller force from the larger one. The net force is the total sum of all the forces acting on the object.
The term that describes the vector sum of the forces acting on a body is "net force." It represents the combined effect of all the individual forces acting on the object and determines the object's acceleration based on Newton's second law of motion.
Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.Yes - if the sum of the forces is zero.
resultant or net force