if forces are balanced net force = 0 and the object has no action, it does not move
Net force is zero when all forces on the object are balanced
The net force is the overall force. This means it will be the sum of all the forces (provided they are given as vectors, not scalars).
If the two forces act in the same direction, then the net force on the object is also in
that same direction, and its magnitude is the sum of the two individual magnitudes.
When talking about "balanced forces", that means that the net force is zero.
It is zero.
It is always ZERO.=)
Zero.
When a pair of balanced forces acts on an object, the net force that results is equal to zero.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
The net force is zero.
A force that acts on an object, but does not cause any movement (specifically, a change in velocity) of the object, is (by Newton's law) equally and opposite balanced by other forces.
The forces are balanced because they are falling at a constant speed. According to Newtons first law of motion an object will keep moving unless an unbalanced or net force acts upon it. If we may step in here for the novel purpose of answering the question . . . The balanced forces on an object that is falling with constant speed are typically the force of gravity (the object's 'weight') and the equal and opposite force of air resistance.
When a pair of balanced forces acts on an object, the net force that results is equal to zero.
If the net force is zero, then the forces are balanced. If the net force is not zero, then the forces are not balanced. You can have a balanced pair of forces, but not a pair of balanced forces.
The net force is zero.
the answer is zero.
It is zero.It is always ZERO.=)
A force that acts on an object, but does not cause any movement (specifically, a change in velocity) of the object, is (by Newton's law) equally and opposite balanced by other forces.
balanced
The other force being applied, opposing to the object's static friction would both be equal therefore the forces are balancing.
The forces are balanced because they are falling at a constant speed. According to Newtons first law of motion an object will keep moving unless an unbalanced or net force acts upon it. If we may step in here for the novel purpose of answering the question . . . The balanced forces on an object that is falling with constant speed are typically the force of gravity (the object's 'weight') and the equal and opposite force of air resistance.
The other force being applied, opposing to the object's static friction would both be equal therefore the forces are balancing.
The forces are balanced because they are falling at a constant speed. According to Newtons first law of motion an object will keep moving unless an unbalanced or net force acts upon it. If we may step in here for the novel purpose of answering the question . . . The balanced forces on an object that is falling with constant speed are typically the force of gravity (the object's 'weight') and the equal and opposite force of air resistance.
Zero.