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Our inertial mass has dropped to about half its normal value.
It appears far more natural to consider every inertial mass as a store of energy.
No physical difference has been found between gravitational and inertial mass.
Our inertial mass is twenty-five per cent at the moment.
Mach6: Inertial mass is affected by the global distribution of matter.
This is, in principle, how we would measure the inertial mass of an object.
Despite its low inertial mass, the big memoid clearly did not like this.
It may have taken a great deal of energy to get my inertial mass moving; once moving, I am very hard to stop.
In other words time and inertial mass are irrelevant.
It's the choppiness of that sea which creates inertial mass, not matter itself.
The factor m is referred to as inertial mass.
In a state-three field, however, all inertial mass drops to zero.
"But we'd also feel our inertial mass to be a fifth of what it should be.
More specifically, inertial mass is a quantitative measure of an object's resistance to acceleration.
According to general relativity, inertial mass and gravitational mass are the same.
Our bodies, and the fabric of the ship around us, still have nearly their full quota of inertial mass.
Nine-tenths of the inertial mass of every particle in the field no longer existed.
"So we could lower the inertial mass."
The only apparent difference between inertial mass and gravitational mass is the method used to determine them.
This suggestion signifies that the inertial mass should depend on the scalar field.
Inertial mass is the mass of an object measured by its resistance to acceleration.
The inertial mass, on the other hand, quantifies how much an object accelerates if a given force is applied to it.
The mass-energy equivalence in special relativity refers to the inertial mass.
A man fighting from horseback also had the advantages of greater height, speed, and inertial mass over an opponent on foot.
The centrifugal force is calculated by Newton's laws of motion and depends on inertial mass.