The mass of the gasses that make up our atmosphere weigh much more than the human population (1 trillionth of the earths mass) and move opportunistically into dense and low density pockets in all positions at all times on the globe and they have absolutely no effect on the rotational inertia. Consider the earth is not a solid mass inside or out, it is basically a hydraulic dampener. Now if you could generate sufficient vibration waves in order to harmonically disrupt the fluid dampening effect it would be possible for the system to fault and the earth to throw a bulge.
Force does not affect inertia in general. Inertia can basically be identified with the mass.
earths tempertures
earths tempertures
i do nt no
it affect the river because of the transition of the earth's rotational axis and the planets also have a big affect to the rivers future.
higher inertia higher mass
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.
Mass is the measure of inertia and if you change the mass the inertia will change.
Mass affects the properties of inertia
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.
Force does not affect inertia in general. Inertia can basically be identified with the mass.
A variable that has no affect on friction is Inertia
crazy
The (centripital) force due to rotation is at its greatest at the equator, if you weigh 100 kg, the force of gravity on you = approx. 982 n anywhere on earths surface, the centripetal force at the equator = 3.4 n
A variable that has no affect on friction is Inertia
earths tempertures
squer