inertia just depends on mass. Big mass=hard to move.
Inertia is a force that tends to maintain the current state of motion. An example of inertia is the leaning forward of passengers when a moving vehicle breaks.
Inertia is basically proportional to mass. In fact, you can simply specify inertia in units of mass. (On Earth, the object with a larger mass will also have a larger weight.)
The one with the most mass has.
The one with the greatest mass has.
airplane
The one with the greatest mass. In general, inertia is related to mass. Inertia = momentum = mass X speed (technically, velocity). The one with the greater speed (if equal masses).
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
Bowling Ball
Inertia
The train, on account of being the heaviest.
It depends on what type of planet it is.... which one is it?
The one with the greatest mass. In general, inertia is related to mass. Inertia = momentum = mass X speed (technically, velocity). The one with the greater speed (if equal masses).
Out of those substances, mercury has the greatest density. So for the same volume, mercury will be the heaviest and carry the most inertia.
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
Bowling Ball
There are actually 3 kinds of inertia. They are as follows : 1. Inertia of Rest 2. Inertia of Motion 3. Inertia of Direction But nowadays people consider that there are 2 kinds of inertia , inertia of rest and inertia of motion.
Inertia
Resting Inertia and Moving Inertia
There is no "A inertia." Its just inertia and inertia is the measure of an objects to stay at rest or to keep moving.
The train, on account of being the heaviest.
Inertia is associated with mass
Since the lightest tenpin bowling ball is currently 6 pounds and a table tennis ball is not even an ounce, the tenpin bowling ball is heavier.