scientifically speaking,I calculate that it would become heavier.
Earth would be destroy due to the gravity force of that planet.
From the Law of Gravity, F=(GmM)/rr where M is the mass of Earth and m the human mass, G=6.67*10^(-11) r is Earth's radius The force F is F=mg also mg=weight where g is the acceleration due to gravity and m the human mass Putting them together, we get that the acceleration due to gravity g, is g=GM/rr From this, we get that if the mass of the Earth was doubled, then the acceleration due to gravity would be doubled. So, F=m2g this means that the human weight would be doubled as well I think the derivation is correct.
Your weight would be double what it is now.
You mass is the same no matter where you are. You weight would be greatest on Jupiter.
Jupiter has a mass of 0.001 Solar Masses. A star needs at least 0.1 Solar Masses, so if you multiplied Jupiter's mass by at least 100 it would become a star.
Jupiter is so big that the Earth would orbit Jupiter.
The force equal mass times acceleration, if force remains the same, and mass is doubled, then acceleration must be cut in half.
the mass will be doubled (ie) if A=10 , then mass will be equal to 20.
Jupiter would suddenly have aquired enough mass that the temperature and pressure in its core would begin the fusion of hydrogen atoms. Simultaneously Jupiter would also have enough gravity to keep that energy from suddenly exploding outwards. That would make Jupiter a star.
Earth would be destroy due to the gravity force of that planet.
Nothing would happen to mass, but as weight is technically a force due to gravity, based on mass, the weight would be doubled, but again mass would remain the same.
Momentum = mass x velocity. So if the velocity is doubled, momentum will be doubled as they are directly proportional to each other.
Twice the mass --> twice the kinetic energy.
It doubles.
From the Law of Gravity, F=(GmM)/rr where M is the mass of Earth and m the human mass, G=6.67*10^(-11) r is Earth's radius The force F is F=mg also mg=weight where g is the acceleration due to gravity and m the human mass Putting them together, we get that the acceleration due to gravity g, is g=GM/rr From this, we get that if the mass of the Earth was doubled, then the acceleration due to gravity would be doubled. So, F=m2g this means that the human weight would be doubled as well I think the derivation is correct.
weight on jupiter=((mass of jupiter)*(Radius of earth)2/(mass of earth)*(Radius of jupiter)2)*weight on earth
Your weight would be double what it is now.