Yes, apart from small additions when meteorites fall to earth from space
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
yes. If you have planet with the same properties as Planet Earth., there will be life on it.
The mass will always stay the same but the gravitational pull towards the centre of the earth (weight) will change.
The planet, within our solar system, that has nearly the same diameter as Earth, is Venus.
Yes, apart from small additions when meteorites fall to earth from space
Mass remains the same; weight will be one half that of the same mass on earth.
Venus has the closest gravity in comparision with Earth at 0.88. On Venus, you would weight 0.88 what you weigh on Earth. The next closest planet is Saturn, at 1.12.
If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.
The ratio will always be the same so the answer will be 500 to both questions
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.
no planet
Dan's mass is the same as it is on Earth. His weight, however, is doubled.
Yes. The mass of an object is always the same, but the weight of an object depends on the force of gravity on it.
Sara would weigh exactly the same as on Earth. The radius of the planet does not make any difference on ones weight. The mass of the planet is the crucial factor.
A mass of 80 kg will be the same, no matter where you put it.However the weight, as measured by scales, will differ.Fg varies from planet to planet Fg of Earth is 9.8
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.