The effect of a torque is to produce angular acceleration and that of the force is to produce linear acceleration. Since the effects of both torque and force are entirely different, therefore, a torque cannot be balanced by a single force.
-- "Inertia" is not a force. -- There is no such thing as a single balanced force or a single unbalanced force.
No. There is no such thing as a single force that is balanced or unbalanced, and a desk is not a force anyway.
balanced force is when things are balanced.
Rotational force is usually spoken of as torque. Torque is a term we use to talk about a force that acts on a body to change its rate of rotation. It is the rotational equivalent of force in a linear motion system. A torque can arise from a single offset-applied force (using "inertial force" or "central bearing / pin force" to generate the balanced couple), from multiple applied forces, or when analyzing structures... from the slices of the structure outside the area of consideration. Roughly, it is a "force times a closest distance", even if that distance is to a point not on the structure under consideration. See the below link for formalism. In general, a torque does not produce linear displacement of the thing that is being "torqued", but nets to zero displacement over some length or some time. Technically, torque is the turning effect of a couple while moment of a force is the turning effect due to a single force but they are often interchanged. Torque is a type of force that causes an object to rotate.
The only way a single force can fail to change an object's motion isif the magnitude of the force is zero.(Don't go off on a tale of a "balanced force". There's no such thing as a balanced force.Groups of forces can be balanced. The forces themselves can't.)
A balanced force will have a net force that is equal to 0. A balanced force will have an opposing force of equal magnitude of the largest force.
A balanced force has a net force of zero.
The rotational equivalent of a force is a torque. Note, however, that a torque is no longer a force - it is a force multiplied by a distance.
Torque is Force you silly duffa
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.
torque = force * lever length torque = 15 * 55 torque = 825 n-cms
if the net force is balanced then it has to be zero