Planetg at equatorWeight of a 100kg manMercury0.3838Venus0.90490.4Earth0.9973299.732Mars0.37637.6Jupiter2.528252.8Saturn1.065106.5Uranus0.88688.6Neptune1.14114
If it wasn't for gravity, the Earth itself wouldn't have formed! It would be little bits of matter all strewn throughout the universe.
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.
The mass will remain the same, but the weight will be one sixth of what it was on earth, since weight depends on the local force of gravity. The moons gravity is one sixth of the earths.
Yes, because on different planets you are being pulled down by a different mass. this help me so much
In space, nothing: it has mass but no weight. On a planet or moon it depends on the gravity of that planet or moon as well as the mass of the spaceship.
weight
The importantidea here is a planet's "surface gravity". That's the measure of the planet's gravitational "pull"at its surface. The larger this number, the heavier the weight ofan object on the surface of the planet. For example, the "surface gravity" on Mars is only 38% of the Earth's. So, if you could be on the surface of Mars, your weight would be 38% of your weight on Earth.
weight
weight
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.
The higher you go above the surface of a planet the weaker gravity gets. More specifically, the strength of gravity is inversely proportional to the square of your distance from the planet's center.
Your weight is directly proportional to the mass and gravity of the planet, if the planet has a greater gravity and mass, you will weigh more.
The force of gravity on a person or object at the surface of a planet is calculated by the product of the mass of the person or object and the gravitational constant acceleration for the planet. For Earth, the gravitational acceleration is 9.8 m / s^2.
We would call it the person or object's "weight" on that planet.
The acceleration affects the weight of the person and object
Considering that the moon is about 1/4 of the size of the planet Earth, its gravity is aroung 83.3% (or 5/6) less that of our planet, therefore, if "weight" is the measure of the gravitational pull between two objetcs, 352g of an object on Earth, it will weight 58.4 g on the surface of the moon.
The weight of an object on the surface of a planet depends on ...-- The mass of the object.-- The mass of the planet.-- The distance between the center of the object and the centerof the planet, i.e. the planet's radius.