What object has the highest inertia?
What object has the highest inertia?
The bricks, like any object, possess inertia. That is, the bricks will resist changes in their state of motion. If Shirley gives them a push, then the bricks will offer resistance to this push. The one with the most mass will be the one with the most inertia.
Which has more inertia a 20 kg mass or a 10kg mass?
Which object has more inertia and why? Choice B: A 20 kg object has more inertia because it has a greater mass than object A.
Which box has more inertia?
A 15 kg box has more inertia than a 10 kg box. Inertia is a property of matter related to its mass. The more mass an object has, the greater its inertia.
Which has more inertia a 1 kg ball or a 10 kg ball circle one Why?
Inertia is an object’s resistance to changes in its motion. The more massive object has a greater inertia, so the 10kg ball has MORE inertia than the 1kg ball.
Which object has the greatest inertia a 15 kg?
Option (1) is correct. The inertia is greatest for a 15 kg mass travelling at a speed of 15 m/s. Further Explanation: The inertia of a body is its capability or its tendency to remain in its state of rest or of motion until it is forced to change its state by means of an external agent.
Which has more inertia a body of mass 1 kg or hundred kg?
An object with a greater mass will have more inertia as it takes more force to change their motion.
Which has more inertia a body of mass 1 kg or 100 kg?
A body of mass 2kg has more inertia because heavier object has more inertia than the lighter object.
Which has more inertia bowling ball or tennis ball?
The greater the inertia (mass) of an object, the more force is needed to accelerate it at a given rate. Since inertia is simply just a measurement of mass, the bowling ball has a higher mass, thus inertia, than the tennis ball.
Why does speed affect inertia?
As you accelerate, your velocity increases and therefore mass will increase. The increase in mass will bring about an opposite force. The greater the mass, the greater the inertia.