Force does not affect inertia in general. Inertia can basically be identified with the mass.
Inertia will not be affected when "net" or "net force" is zero.
Zero net force has no effect on an object's motion whatsoever.
The tendency is called inertia. The inertia of an object is directly related to its mass, since the effect of any given force depends on the mass and motion of the object (and whether the force acts with or against any other existing forces).
Nothing gives an object inertia. Inertia is not a force. It is just the tendency of an object to continue in its motion if there is no force acting upon it.
If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).If the forces are balanced (in other words, the net force on an object is zero), then the object will not accelerate (its velocity will not change).
Inertia will not be affected when "net" or "net force" is zero.
effect on inertia of a body if force is double?
effect on inertia of a body if force is double?
Inertia will not be affected when "net" or "net force" is zero.
according to me zero unbalanced force is when force is applied in an object and it is not balance ,if there is no inertia due to it then it is called zero unbalanced force.
Inertia will not be affected when any type of force is applied.
It describes motion when net force is zero.
The law of inertia (or newton's first law) states that a body remains stationary or moves with constant velocity if the net force that acts on it is zero.
When the object is at rest, the acceleration is zero. so the net total force acting on the body from all directions should be zero. when the object is moving with constant velocity, the acceleration is zero, so in this case too, after the motion is started, the force on the body should be zero. when the velocity is increasing, some acceleration is present, so some force should be present in the direction of the motion. These are the various cases which can be explained by the equation: Force = Mass * Acceleration. here the mass remains constant, so acceleration depends on the net force
Inertia guarantees that an object at rest will remain at rest and an object in motion will remain in that same motion, so long as there is no external force acting on that object. Alternately, there could be force acting on it as long as that force adds up to zero.
Unless acted on by an unbalanced force, an object will maintain a constant velocity
Zero