Inertia is directly proportional to an objects mass. Inertia is the desire of objects to continue doing exactly what they are doing. The greater the mass the greater the inertia.
To acceleration (change in velocity).
No. Gravity always behaves predictably, according to the same formula,no matter what happens to the mass of objects.However, the forces that gravity creates between objects do depend onthe masses of the objects, and if the mass of either object changes, thenthe forces between them change.
Any object that has a mass.
Nothing. The mass will not change with a gravitational increase, but the weight will.
Mass is the measure of inertia and if you change the mass the inertia will change.
1. Change its mass. 2. Change the mass of objects near it.
yes
More mass will result in more gravitational force.
Inertia is directly proportional to an objects mass. Inertia is the desire of objects to continue doing exactly what they are doing. The greater the mass the greater the inertia.
To acceleration (change in velocity).
No. Gravity always behaves predictably, according to the same formula,no matter what happens to the mass of objects.However, the forces that gravity creates between objects do depend onthe masses of the objects, and if the mass of either object changes, thenthe forces between them change.
Any object that has a mass.
Nothing. The mass will not change with a gravitational increase, but the weight will.
Mass is a property that gives objects the following:* It provides objects with weight. (Note: weight = mass x gravity) * It provides objects with inertia. The higher the mass of an object, the harder it is to change its velocity.
There will be a gain in mass.....but you can't predict the new change in mass unless you weigh the products after the chemical change occurred.
It won't change. Density is volume divided by mass, so if volume doesn't change, density doesn't change unless you change the mass of the object.