Net force and interference are related because net force is a force and interference is putting a force on something.
No, the two are entirely different concepts.
Inertia can be measured in units of mass, that is, in kilograms. They are related via Newton's Second Law: force = mass x acceleration.
I don't think there is such a force. Your question might refer to "inertia", but of course, inertia is not a force - it is more closely related to mass.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
Inertia will not be affected when "net" or "net force" is zero.
Inertia will not be affected when "net" or "net force" is zero.
yes, the physics of inertia apply everywhere that inertia will be
Net force and interference are related because net force is a force and interference is putting a force on something.
No, the two are entirely different concepts.
Inertia can be measured in units of mass, that is, in kilograms. They are related via Newton's Second Law: force = mass x acceleration.
I don't think there is such a force. Your question might refer to "inertia", but of course, inertia is not a force - it is more closely related to mass.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
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.
Inertia resists acceleration. Inertia resists a change in the state of motion of a particle or rigid body. For instance, in order for the state of motion of an object to change, there must be a net external force exerting on the object, which is defined as mass times acceleration. Resistance to this net external force would therefore have to resist the object's acceleration, and that is inertia.