the mass will always be 50 kg, however, the weight changes depending on different variables. Something that has a weight of 50 kg at sea level will be somewhat lighter in high altitudes, and conversly, something that weighs 50 kg at the peak of Mt Killimanjaro will weigh more at sea level.
45 kg. The same. Your mass doesn't change on which planet you're on, but your weight does.
Newtons (symbol: N).Do not confuse weight with mass (the unit of mass is the kilogram). Weight is the downward force exerted by a mass because of the pull of gravity.The unit of weight is Kg*m/s2Metric unit for mass is kilograms (kg), however weight is a different measurement defined as force that will act on the object due gravity of a given planet (so it measures in Newtons, N). On Earth your weight is almost the same as your mass (and that is not a coincidence) but on the other planet your mass will remain the same (say 70kg) while your weigh may change dramatically (depending on the gravity of the planet). In the free fall state your weight is zero.
Because earth is a larger planet than the moon, it has a stronger gravity. Bigger the planet > Stronger the gravity. That is the rule. Since our moon is a much smaller planet, it has weak gravity, and so the object is not being pulled down as hard, so it reduces the overall mass.
Because mass is not the same as weight. Weight is mass times gravity so your weight will change if you are on the earth or moon but your mass will stay the same.
The weight of an object is given as the formula W=mg where W is the weight, m is the mass and g is the gravitational acceleration (or the gravity of planet). On earth, g is generalized as 10 N kg-1(about 9.8 N kg-1 to be more exact). On the moon, it is about 10/6 N kg-1. So, the weight of a 10kg mass on earth would be 100 N (N is Newton, the SI unit for weight) while the mass would be 16.7 N on the moon.
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.
Mercury is the lightest planet in our solar system, with a mass of about 0.055 times that of Earth.
The mass is 64.44 grams. But the difference between mass and weight is that mass is weight is how heavy it is on the planet you weigh it on and mass it the weight it is on Earth, whether is is on Earth, or not.
Mass remains the same; weight will be one half that of the same mass on earth.
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 planet with the greatest weight is Jupiter. Its large mass and strong gravity give it the highest weight in our solar system.
The mass of the object remains the same since it is a measure of the amount of matter in an object, but the weight changes because weight is dependent on gravity, which varies from planet to planet. If the gravitational force on the new planet is different than on Earth, the weight of the object will be different.
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
If the planet were the same size as Earth but its mass were some percent greater than Earth's mass, then your weight there would be that same percent greater than it is on Earth. A bathroom scale on that planet might not read exactly the number that I have described ... your apparent weight, as displayed by a bathroom scale, would also be influenced somewhat by the planet's rate of rotation, which might be something different from 15° per Earth-hour of time.
Your mass stays the same but your weight is different because it is the force that the planet's mass attracts your mass with. So if you are on a small planet your weight is less. A body with 100 pounds mass has a weight of 100 pounds on the Earth but only 17 pounds on the Moon, and zero pounds in space.
Your mass is the same wherever you are, on Earth, on Saturn, on the Sun. Your weight changes if you are on a different planet.