False. The question says "... regardless of size and weight ...", but it is weight that is the force of gravity
between the object and the earth. So when the weight is different, the force is different, by definition.
Basically true. In general, that is the tendency; but the speed with which objects fall also depends on the shape and the density of the objects.
true
On the earths surface gravity pulls you down.
that would be gravity Fg = Gm1m2/r^2
No, Its gravity is much lower due to a lower overall mass of the planet. Mars' gravity is about 37.6% of the Earths.
Gravity.
The surface gravity on Io is very low compared to Earth, due to its low mass, around 0.183g or 18.3% of the Earths pull at the surface. this is just a little more than the surface gravity on our own moon, which is about 16.5% of earths pull.
On the earths surface gravity pulls you down.
the objects which enter the earths atmosphere are being pulled down towards the earths surface due to the earths gravity. And so it leads to falling falling of large objects from the space on the surface of the earth.
Mainly gravity, and air resistance.
It makes things weigh more or less, depending on the surface gravity.
The Sun's gravity, at its surface, is about 28 times Earth's surface gravity.
yes it does but the gravity is 38% of the earths gravity and if doesn't affect objects then it will have no moon
Earths surface of gravity is 4.6m/s2 more than moons.
Both mercury and mars have a gravity which is around 38% of earths. Mercury's gravity is 37.8% of earths, Mars' gravity is 37.7% of earths.
that would be gravity Fg = Gm1m2/r^2
weights
About 0.183g, where one g is the earths gravity, so about one fifth of the earths gravity. It is similar to our own moons surface gravity.
38% on its surface.