higher inertia higher mass
Mass affects the properties of inertia
Inertia does not affect gravity, these are two entirely separate things, even though they both are produced by the same thing, which is mass. Mass creates both inertia and gravity, but inertia and gravity do not affect each other.
Zero gravity does not affect inertia. The inertia of an object is an inherent property of the object and is directly proportional to the object's mass.
The more mass there is the more inertia there is.
inertia is the laziness of an object, or an objects resistance to change its state of motion, or how easy it is to start or stop an object. Mass is the measure of an object's inertia. Therefore with more mass, an object has more inertia.
Mass is the measure of inertia and if you change the mass the inertia will change.
Mass affects the properties of inertia
Inertia does not affect gravity, these are two entirely separate things, even though they both are produced by the same thing, which is mass. Mass creates both inertia and gravity, but inertia and gravity do not affect each other.
Zero gravity does not affect inertia. The inertia of an object is an inherent property of the object and is directly proportional to the object's mass.
The more mass there is the more inertia there is.
Force does not affect inertia in general. Inertia can basically be identified with the mass.
inertia is the laziness of an object, or an objects resistance to change its state of motion, or how easy it is to start or stop an object. Mass is the measure of an object's inertia. Therefore with more mass, an object has more inertia.
Velocity and mass
more mass means more inertia, inertia refers the a objects resistance to begin moving or to stop moving, therefore yes it does
if there is large mass its harder to get moving and harder to stop than an object that has less mass.
Inertia is directly related to mass. More mass means more inertia.
Inertia is related to the mass, and it is proportional to the mass. When measuring things, you will usually measure the mass, not the inertia - but it basically amounts to the same. Just consider the mass to be what gives an object its inertia.