Q: What is the force of gravity on the surface of mercury?

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If one is hypothetically measuring gravity from a long distance, would there be a delay between the gravity encompassed by a source and the gravity detected from a distance, similarly to how there is a delay in the measurement of light from a distance?I know that gravity might be independent from time since it is influence by an object's existence. But then again, gravity is a part of space-time.

Newtons are (kg m)/sec^2 which is a measure of force, not mass Improved answer: Kilograms are a measure of mass and also of force which varies with the gravity of the context. 10,000 newtons is equivalent to the force exerted by a mass (on Earth) of 1,000 kilograms (2,205 pounds).

1949 Well hey now woman don't you look so fine Drivin round in your Mercury 49 Crazy bout a Mercury, Lord I'm crazy bout a Mercury I'm gonna buy me a Mercury and cruise it up and down the road

There were 40 episodes in Gravity Falls' run.

Related questions

3.7 m/s2 or 0.38 g

The force of gravity on the surface of Mercury is 3.7 ms-2, compared to 9.81 ms-2 on earth.

The surface gravity of Mercury is 3.7 meters per second squared. The Earth gravity is 9.8 meters per second squared. Comparing these quantities, you find that Mercury' gravity is approximately 38 percent that of the Earth's.

Mercury has a force of gravity of 3.7m/s2.

Gravity ("surface gravity")on Mercury is 0.38 that of Earth.

The acceleration of gravity on the surface of Mercury is 3.7 m/s2, compared to 9.8 m/s2 on the surface of the earth. The force between Mercury and any mass there depends on the size of the mass, just as it does on earth. The weight of any object on Mercury would be about 38% of the same object's weight on 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.

The acceleration of gravity on Mercury's surface, and therefore the weight of anyobject located there, is 37.7% of its value on the surface of the Earth. It followslogically that a person whose body weighs 100 pounds on the Earth's surfacewould weigh 37pounds 11.2ounces on the surface of Mercury just before it beganto vaporize in the bright sunshine there.

The acceleration of gravity at the surface of Mercury is 3.7 m/sec2. The force on a mass on the planet's surface depends on the size of the mass. The magnitude of the force, in newtons, is (3.7) times (the object's mass).

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.

The acceleration of gravity at the surface of Mercury is 3.697 meters/sec2 .The corresponding value on earth is 9.807 m/s2 .The acceleration and force of gravity on Mercury are 37.7% of their values on earth.A person who weighs 100 pounds on earth would weigh 37.7 pounds on Mercury.

No Mercury, either the metal or the planet is not equal to gravity. Gravity is a force of nature, not a planet or a substance.