Earth=1, Moon=1/6. Or, Moon=1, Earth=6
because the moon's mass is about one-sixth that of the Earth
ask einstein
Yes, on the Moon everything weighs 1/6th the weight on Earth.
If the Earth became bigger but its mass remained the same, then objects on its surfacewould weigh less than they do now.If the Earth became bigger and its mass also increased, (with average density remainingconstant), then objects on its surface would weigh more than they do now.
The ratio gravity on Mars to gravity on Earth is 1 to 2.64, while the ratio gravity on Earth to gravity on mars is 1 to .621.So a person on earth weighing 100 pounds would weigh 62 pounds on mars, and a 200 pound person would weigh 124
About 55 pounds 2⅓ ounces. The approximate factor is 0.904. Earth pounds x 0.904= Venus pounds
No. Density is a ratio; it is mass divided by volume. Anything that you can weigh has a non-zero density, but the weight of the thing is related to its mass and the gravity where it is being measured. You could have two objects of vastly different density, but the weight of the objects could be the same.
Mercury has less gravity, so objects on Mercury would weigh less than they would on Earth
It weighs more on the earth. The moon is much less massive than earth, so it attracts objects with a smaller force.
It weighs more on the earth. The moon is much less massive than earth, so it attracts objects with a smaller force.
Yes, that is exactly what makes you weigh less on Earth then on the Moon, though your mass hasn't changed, your apparent weight does.
Is your question "what do you weigh different objects on in space...", or "why would you attempt to weigh an object in space"...?