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Does a heavier object always have more inertia than a lighter object?
Inertia is "rotary momentum"; an object's ability to continue spinning when a decelerating force is applied.Just as a heavy object takes more effort to stop from the same speed as a light object, so does a heavy object take more effort to stop from turning at the same speed as a light object.So assuming they are turning at the same angular velocity, the heavier one has a larger inertia. Otherwise, remember that inertia is also proportional to angular velocity.
How inertia depends on mass?
Inertia is directly proportional to mass. The greater the mass of an object, the greater its inertia. This means that a heavier object requires more force to change its state of motion compared to a lighter object due to its larger inertia.
Two objects one heavy and one light travel at one of two speeds Which will have the most inertia?
The heavier object will have more inertia regardless of the speed at which they are traveling. Inertia is directly related to an object's mass, with heavier objects having greater inertia compared to lighter objects.
Does lighter objects have mor or less inertia then heavier objects?
Lighter Objects have LESS "inertia". Mass is physical manifestation of inertia. Mass is weight so the more mass the more potential inertia to over-come -- either to make an object move or to stop an object once it is moving. So, if a meteorite weighing 1 gram hits a space station weighing 1,000 tons the likelihood of the object causing damage is proportional to the speed of the meteorite; but if the meteorite weighs 1,000 tons (same as space station) the sheer mass alone would cause damage (regardless of movement because any movement would be too much.)
A 2mg object has more inertia than a 20 kg object?
Since momentum (force in motion) is a measurement of mass times velocity, a heavier object traveling at the same speed as a lighter object will have more force behind it.
Does a heavier object always have more inertia than a lighter object?
Inertia is "rotary momentum"; an object's ability to continue spinning when a decelerating force is applied.Just as a heavy object takes more effort to stop from the same speed as a light object, so does a heavy object take more effort to stop from turning at the same speed as a light object.So assuming they are turning at the same angular velocity, the heavier one has a larger inertia. Otherwise, remember that inertia is also proportional to angular velocity.
How inertia depends on mass?
Inertia is directly proportional to mass. The greater the mass of an object, the greater its inertia. This means that a heavier object requires more force to change its state of motion compared to a lighter object due to its larger inertia.
Two objects one heavy and one light travel at one of two speeds Which will have the most inertia?
The heavier object will have more inertia regardless of the speed at which they are traveling. Inertia is directly related to an object's mass, with heavier objects having greater inertia compared to lighter objects.
Does lighter objects have mor or less inertia then heavier objects?
Lighter Objects have LESS "inertia". Mass is physical manifestation of inertia. Mass is weight so the more mass the more potential inertia to over-come -- either to make an object move or to stop an object once it is moving. So, if a meteorite weighing 1 gram hits a space station weighing 1,000 tons the likelihood of the object causing damage is proportional to the speed of the meteorite; but if the meteorite weighs 1,000 tons (same as space station) the sheer mass alone would cause damage (regardless of movement because any movement would be too much.)
A 2mg object has more inertia than a 20 kg object?
Since momentum (force in motion) is a measurement of mass times velocity, a heavier object traveling at the same speed as a lighter object will have more force behind it.
Why are heavier objects harder to start or stop moving?
Heavier objects have more inertia, which means they resist changes in their motion. More force is needed to start or stop the motion of a heavier object compared to a lighter one.
Two objects one heavy and one light travel at one of two speeds. Which will have the most inertia?
The one with the largest mass
Why does a heavy thing go further than a lighter thing?
A heavy thing goes further than a lighter thing because it has more momentum and inertia, allowing it to overcome friction and air resistance more easily. This results in a heavier object maintaining its speed and traveling a greater distance.
Why is A heavier objects harder to accelerate than a lighter object?
A heavier object has more mass than the lighter object.The acceleration of any object is (force on the object) divided by (the object's mass).A = F/MAs this simple fraction shows, if equal forces were applied to many different objects, you'd immediately see that the smaller an object's mass is, the moreacceleration results.
Is there more gravitational potential energy in heavier object or lighter object?
There is more gravitational potential energy in a heavier object compared to a lighter object. This is because gravitational potential energy is directly proportional to an object's mass and height. Therefore, the heavier object with more mass would have a greater gravitational potential energy when raised to the same height as the lighter object.
Why heavier body needs greater initial effort to put them in motion?
Heavier body have grater mass which leads to greater force requirement to put them in motion. Force is given by F=ma Therefore, if m is greater than required force F is greater. Secondly, the inertia of rest of heavier object is greater than the lighter object hence the greater initial effort is required
How does the weight of an object affect its ability to slow down?
The weight of an object affects its ability to slow down because a heavier object has more inertia, making it harder to stop. This means that more force is needed to slow down a heavier object compared to a lighter one. Additionally, factors such as friction and air resistance also play a role in slowing down an object.
