Local gravity can't be described in units of "kg".
The acceleration of gravity at the surface of Mercury is
3.697 meters (12.13 feet) per second2 .
Mercury's gravity is approx 40% of Earth's.
The force of gravity at Pluto's surface on an object with a mass of 100kg is approximately 58N .
The acceleration due to gravity on the surface Venus is 8.9m/s2 That's about 90% of Earth's.
Mars has 38% the pull of gravity than th Earth's.
The surface gravity of Neptune is thought to be about 1.14 times the gravity on Earth, so 100 kg on Earth would weigh about 114 kg on Neptune--except that Neptune is a gas planet and has no solid surface on which the 100kg rock could be weighed.
mercurys surface material is made out of nothing but craters
Weaker, much weaker.
At the surface, the gravity is about 9.8 Newtons/kg.
Mercury's gravity is approx 40% of Earth's.
The force of gravity at Pluto's surface on an object with a mass of 100kg is approximately 58N .
-184c to 427c
Io's gravity is 1.796 m/s2 (0.183 g) If you weighed 100 kg on Earth, you'd weigh 18.3 kg on Io.
The force of Earth's gravity on the 4-kg book is stronger than the force of Earth's gravity on the 2-kg book.
if you weighed 100 kg on earth you would feel like you weighed 2,800 kg if you tried to walk on the surface of the sun.
earth is 81.3 times the mass of the moon . acceleration due to gravity at earths surface = 9.82 (m/s)/s acceleration due to gravity at moons surface = 1.62 (m/s)/s . 1 kg at earths surface, force = 1 * 9.82 = 9.82 newtons 1 kg at moons surface, force = 1 * 1.62 = 1.62 newtons
The force of gravity on a man is his mass(m) in kg multiplied by the acceleration due to gravity(g). On the surface of the Earth, g = 9.8 m/s2F = mg
The object's force on the moon's surface is 294N