The acceleration of gravity on Mercury's surface, and therefore the weight of any
object located there, is 37.7% of its value on the surface of the Earth. It follows
logically that a person whose body weighs 100 pounds on the Earth's surface
would weigh 37pounds 11.2ounces on the surface of Mercury just before it began
to vaporize in the bright sunshine there.
Gravity ("surface gravity")on Mercury is 0.38 that of Earth.
The gravity at the surface of Mercury is less than the gravity at the surface of the Earth because Mercury has less mass than Earth does.
Local gravity can't be described in units of "kg".The acceleration of gravity at the surface of Mercury is3.697 meters (12.13 feet) per second2 .
If you weigh 100lbs on Earth, you would weigh 37.8lbs on Mercury.
No. Mercury's surface gravity is less than that of Earth, but it will still hold you to the surface.
Gravity ("surface gravity")on Mercury is 0.38 that of Earth.
The gravity at the surface of Mercury is less than the gravity at the surface of the Earth because Mercury has less mass than Earth does.
About 38% of Earth's gravity.
The acceleration of gravity on the surface of Mercury, and therefore the weight of any mass located there, is roughly 37.7% of what it is on Earth's surface.
At the surface of Mercury, it's about 0.38 times Earth's surface gravity.
Local gravity can't be described in units of "kg".The acceleration of gravity at the surface of Mercury is3.697 meters (12.13 feet) per second2 .
The distance between a planet and an object affects the gravitational force between them. That means the size of a planet affects the value of the "surface gravity" for that planet. The greater thedistance from the surface to the center of the planet, the smaller the gravity at the surface (for the same planet mass). An example is the fact that Mars and Mercury have almost exactly the same surface gravity. Mars has more mass than Mercury, but this is balancedby the fact that Mercury hasthe smaller radius.
This does seem odd. Mars, with a mass that is about twice the mass of Mercury, has about the same surface gravity. Mars' mass is about .107 the mass of earth, and the mass of Mercury is about .055 the mass of earth. The surface gravity on Mars is about .38 times the surface gravity of earth, and the surface gravity of Mercury is about .38 times the surface gravity of earth as well. The difference is that the mean density of Mercury is about 5.43 grams per cubic centimeter, and the mean density of Mars is about 3.93 grams per cubic centimeter. Mercury is quite a bit more dense, so if you stand on Mercury you are much closer to the center of gravity of the planet. Mercury has a tiny slightly bit more gravity than mercury though.
If you weigh 100lbs on Earth, you would weigh 37.8lbs on Mercury.
No. Mercury's surface gravity is less than that of Earth, but it will still hold you to the surface.
It is 3.7 ms^(-2)
The Planet Mercury