in a vacuum yes where there is no resisting force
If a number of Forces acting simultenously on a particle, then it is possible to find out a single force who could replace them and would produce same effect as produced by given all Forces, The single force is called resultant Force and given forces are called component force,
No this is not possible. According to the newton's third law of motion every action has an equal and opposite reaction, therefore if you will apply a force then an equal and opposite force will act on the body applying force. So it is quite impossible to say that an isolated force can exists.
no . with only a single force present, the body would accelarate infinitly in the direction of that force.
its possible in any possible ways depending on the force put on it .
No. There is no such thing as a single force that is balanced or unbalanced, and a desk is not a force anyway.
If a number of Forces acting simultenously on a particle, then it is possible to find out a single force who could replace them and would produce same effect as produced by given all Forces, The single force is called resultant Force and given forces are called component force,
-- "Inertia" is not a force. -- There is no such thing as a single balanced force or a single unbalanced force.
No this is not possible. According to the newton's third law of motion every action has an equal and opposite reaction, therefore if you will apply a force then an equal and opposite force will act on the body applying force. So it is quite impossible to say that an isolated force can exists.
A body is in equilibrium when the force on it is zero, thus if a single force is on the body, the force must be zero or the body will not be equilibrium.
no . with only a single force present, the body would accelarate infinitly in the direction of that force.
its possible in any possible ways depending on the force put on it .
Yes. A single gas particle experiences gravitational force.
A body is in equilibrium when the force on it is zero, thus if a single force is on the body, the force must be zero or the body will not be equilibrium.
The difference is that one is co-linear force is one dimensional and co-planar force is 2-dimensional. Co-linear force is the force which is acting along a single line, whereas co-planar force is the force which is acting along a single plane.
When balanced force present on a body, the net force is equal to zero.So it is not possible when balanced forces are acting on it.
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.
No. There is no such thing as a single force that is balanced or unbalanced, and a desk is not a force anyway.