The weight is simply the mass multiplied by the gravitation. If the mass is in kg. and the gravitation is in meters per square second, the weight is in Newton.
if we were to be on uranus the gravity would be 89% of what we get on earth.
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.
Jupiter's surface gravity is 2.639 times as great as Earth's. A person who weighs 200 pounds on Earth would weigh 528 pounds there.
Does mars' gravity affect other objects. yes it does but the gravity is 38% of the earths gravity and if doesn't affect objects then it will have no moon.
Neptune's gravity is 1.14 times the earths gravity. So if you weigh 100 pounds you would weigh 114 on Neptune.
To calculate the force exerted by a person on the floor, we can use Newton's second law of motion: force = mass × acceleration. In this case, the mass would be the person's weight (mass = weight / acceleration due to gravity), and the acceleration would be the force of gravity acting on the person (acceleration = 9.8 m/s^2). By multiplying the person's weight by the acceleration due to gravity, we can determine the force exerted by the person on the floor.
if you double the earths density say , standing at the surface you would experience twice the acceleration, weight would be doubled
because all are measured at the same radius from the earths cog, if you doubled this distance, the acceleration would be only one quarter that of the surface
The acceleration of gravity on the surface of Mars is 3.722 m/s2 .That's about 38 percent of its value on Earth.
That means that the acceleration of an object is caused by the force of gravity acting on the object.
The gravity of Mercury is approximately 38% that of Earths gravity at the surface.Here are some comparisons:A 150 lbs person would weight 57 lbs on Mercury.You would be able to jump about 2.63 times as high on Mercury making a person capable of jumping over their head doing a standard stationary vertical jump.The moon's gravity is 16% of the Earths gravity as opposed to Mercury's 38%
Strictly speaking its not the same . This equation calculates the acceleration: acceleration = ( G * ( m1 + m2 ) ) / d2 where: G = newtons gravity constant m1 = earths mass (kg) m2 = objects mass (kg) d = distance between centres of gravity (metres) The earths mass is so large however, only a significantly large object mass would make a real difference to the acceleration.
IF gravity doubled, THEN your weight would double. And acceleration and the force of gravity are indistinguishable from each other.
In the equitorial region as acceleration due to gravity is =9.8m/s square.In the poles this is about 10.
if we were to be on uranus the gravity would be 89% of what we get on earth.
106 pounds Saturn's gravity acceleration at the equator is about 10.4 m/s2. Earths gravity acceleration is 9.81 m/s2. So Saturn's gravity is about 10.4/9.81 = 1.06 times stronger than Earth's. That would put a weight of 100 lb on Earth, on 106 lb on the surface of Saturn at the equator.
The higher you go the less effect gravity has on you.