Inertia deals with a bodies resistance to change its state of motion ( or stillness)
Esentially , inertia = mass and 1 cu metre water = 1000 kilograms
Inertia
Inertia is associated with mass
Ans : By the formula of moment of inertia , I=mr2 (2=square) As by the formula it is clear that the moment of inertia depends on the mass and the radius of a particular body , so as the mass increases moment of inertia will considerably increase , So as the water drips into the beaker the mass of the beaker will increase By the law of conservation of angular momentum Moment of inertia is inversely proportional to the angular velocity ( omega ) , Since in the above case of coasting rotating system moment of inertia is increased so the angular velocity (omega) will also decrease and hence the coasting rotating system will now rotate slowly as compared to its rotation before dripping water !
This tendency is known as Inertia.
If you slowly move the cardboard the coin on top will move with the cardboard. Law of Inertia. There is not enough force to drop the coin into the water.
Thermal Inertia
Inertia and centripetal force helps the water stay the water in the basket.
Well, if I am correct the water in the bucket stays in there because of inertia and centripetal force. The water wants to come out of the bucket but inertia prevents the water to come out of the bucket. That is all I know I don't know how centripetal force helps the water stay in the bucket though. Hoped this helped you a bit.
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
Above the highest tide (allowing for the inertia AND friction of water).
A full bottle of water
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.
Inertia is associated with mass
Ans : By the formula of moment of inertia , I=mr2 (2=square) As by the formula it is clear that the moment of inertia depends on the mass and the radius of a particular body , so as the mass increases moment of inertia will considerably increase , So as the water drips into the beaker the mass of the beaker will increase By the law of conservation of angular momentum Moment of inertia is inversely proportional to the angular velocity ( omega ) , Since in the above case of coasting rotating system moment of inertia is increased so the angular velocity (omega) will also decrease and hence the coasting rotating system will now rotate slowly as compared to its rotation before dripping water !
the Law of Inertia state