No, mass is not effected by the application of force. Only displacement is produced.
The mass of an object does not change when the gravitational force changes. Mass is a measure of the amount of matter in an object and is independent of the gravitational force acting on it.
The weight of a body changes when there is a change in the gravitational pull acting on it. This can happen if the body moves to a different location where the gravitational force is different, like going from Earth to the Moon. The weight can also change if the mass of the body changes, as weight is a result of the force of gravity acting on an object's mass.
If the mass of each body is halved, the gravitational force between them will also be halved. This is because the gravitational force is directly proportional to the product of the masses of the two bodies. Therefore, reducing the mass of each body by half will result in a reduction of the gravitational force by half as well.
Newtons second law of motion, describes the relationship between force, mass and acceleration: f = m * a , ( a = f / m ), ( m = f / a ) > Inclined plane: The force (kgf) down the incline on a body on an inclined plane is = mass (kg) * (sin (incline angle)) So if you change the mass, the force down the incline changes in proportion, the acceleration will remain the same, regardless of changes in mass.
Mass helps the gravitational force by pulling the object down
Mass and Force have no relationship except the gravitational force that is dependent on the mass of the body. Mass affects only the inertial force. Inertial force is the force required to change a state of rest or motion of a body. Greater the mass greater the inertial force required.
No, mass remains constant regardless of changes in gravitational force. Mass is a measure of the amount of matter in an object and is independent of gravitational force, whereas weight, which is the force acting on an object due to gravity, can change with variations in gravitational force.
the greater the mass, the greater will be the inertia produced in the body when the force is applied on it.
As the mass of a human body increases, so does the g-force exhibited on the human body.
No, the mass of a body does not change when a force is applied to it. Mass is a measure of the amount of matter in an object, and it remains constant regardless of the forces acting on it. The acceleration of the body may change due to the force, but not its mass.
force acting on unit mass of body is the acceleration of that body.
Inertia is matter's unwillingness to slow down, speed up, or change direction in any way. It is also related to the matter's momentum. Momentum is caused by the body's velocity as well as the body's direction. If the velocity of the matter is increasing, or the body changes its direction, it can be said that the body of mass is experiencing inertia. When the body is accelerating (changing in velocity), the momentum of the matter is also changing (F=ma), thus mass and acceleration is related by momentum through inertia.