-- It takes more force to accelerate an object with more mass.
... Gravity exerts more force on an object with more mass.
-- It takes less force to accelerate an object with less mass.
... Gravity exerts less force on an object with less mass.
Whatever the mass of the object happens to be, gravity always exerts just the right
amount of force to accelerate it at always the same rate ... 9.8 meters per second2.
Objects have different mass because they not weighted the same..
In vacuum, yes. Otherwise the object with a lower density will fall more slowly.
they fall at the same rate regardless of their mass Maryann Saba
Objects have different mass because they not weighted the same..
Yes. And objects with different sizes, masses, and weights also fall the same.
Who found (discovered) that objects of different mass and weight fall at the same rate
in a vacuum, yes, all objects would fall at the same rate, but otherwise no due to air friction
Objects have different mass because they not weighted the same..
In vacuum, yes. Otherwise the object with a lower density will fall more slowly.
in a vacuum, yes, all objects would fall at the same rate, but otherwise no due to air friction
In the absence of air, yes they do. In air, they don't. As an example, consider a sailplane and a rock with equal mass.
they fall at the same rate regardless of their mass Maryann Saba
Objects have different mass because they not weighted the same..
Yes. And objects with different sizes, masses, and weights also fall the same.
No, there is an air resistance which resists its motion. it depends on the shape and size of the object.
In vacuum, neither mass nor density will make any difference. Otherwise, air resistance becomes relevant and objects with lower density fall lower.
Different velocities is what causes objects to have the same mass and different amounts of inertia. This can be written in a formula.