inertial mass is the measure of the object's inertia
i.e; if an object has less inertial mass ,then it changes its motion readily.
if it has more inertial mass ,then, it does not change its motion readily.
gravitational mass is of 2 types.
active and passive.active gravitational mass is something like....
u see, active gravitational mass of moon < active gravitational mass of earth.
and passive gravitational mass is the measure of the strength of the object's interaction with the gravitational field.
Weight and inertia are both related to mass. Inertia is the same, whether there is gravity or not. Weight also depends on gravity. If there is no gravity, an object will have no weight, no matter what its mass is.
Technically and theoretically, there's no reason why they should
be the same, but in the real world, they always are.
Inertia is the resistance to moving and Mass is the amount of matter that an object has
The difference between inertia and mass is that inertia is the resistance to move. And mass is the amount of matter that something is made of.
no difference, the newton first law is also called law of inertia
7
A force is a push or a pull. Inertia is unchanging state (mass or velocity)
inertia
The difference between inertia and mass is that inertia is the resistance to move. And mass is the amount of matter that something is made of.
no difference, the newton first law is also called law of inertia
7
There is no difference. They are the same.
A force is a push or a pull. Inertia is unchanging state (mass or velocity)
inertia
dekh lo...
Gravity is the natural force of attraction between two masses. inertia is directly linked to mass and represents its resistance to change of velocity.
mass moment of inertia is the property of the body to resist rotation about the given axis where as the area moment of inertia is the resistance to bending about the given axis
about a 75 # weight difference between both sides.
Three tons is the difference between them
No. The weight by an object is related to the object's mass. Inertia is a separate effect, also due to mass - but there is no such thing as a "pull of inertia".