567 N /9.81
^(garvity on earth)
=57.798 x 1.60
^(gravity on moon)
=92.5 N (rounded to correct number of sig figs)
weight on jupiter=((mass of jupiter)*(Radius of earth)2/(mass of earth)*(Radius of jupiter)2)*weight on earth
Yes, of course. Mass is an intrinsic property of matter. Weight is something we usually measure with a scale, and it depends on gravity. For example, if I weighed you here, on Earth, you'd weigh what your scale says you weigh (assuming that it's accurate). But if we were to take the whole show to the moon, you'd weigh about one sixth of that, even though you have exactly the same mass. The difference is that the gravity on the moon is much less than that on earth ( about 1/6 th).
What is registered on the scale is weight or force, at the earths surface 1 kg mass = 1 kg weight, if you put 1 kg mass on the scales at two earth radius, it would weigh 0.25 kg Equation concerned is: force = mass * acceleration due to gravity
If a student's mass is 40kg on earth, then his mass is 40kg wherever in the universe he goes. Mass doesn't change. What changes is the gravitational force between each mass and the other masses in the vicinity of the first one. That force is what we call "weight".
Your weight on the moon is about 16.55% of your weight on Earth. If you weigh 200 pounds on Earth, then you'll weigh 33.1 pounds on the moon. Plus, of course, your space suit and all the rest of the gear you have to wear in order to survive on the moon.
You would weigh it on your kitchen scale
If you had a 50kg weight on Earth, it would weigh ~zero on the space station. It would still have a mass of 50kg--meaning it would difficult to move, and hurt very bad if it wumped you on the head, but placed on a scale, it would show 0. Likewise, if you had that 50kg weight and a scale on an elevator here on Earth, the scale would read 50kg. Say at the top of a 100 floor building, the elevator's cable and safety devices broke and the elevator, you, the 50kg weight and the scale were all in free fall. For a very short time, the 50kg weight would weigh zero. You would weigh zero. The scale would weigh zero. Until the elevator hit the ground.
Earth's mass is 5,973,600,000,000,000,000,000,000 kg.
The same as it is on the Earth. Mass does not change, weight does.If you weighed 50kg on Earth you would weigh about 8.3kg on the Moon.
Simple. Weigh it
The unit "kilogram" is a measure of mass, not weight, so the mass would still be 10 kg on Mercury.However, a scale on Mercury's surface would show that the 10-kilogram item weighed only 3.8 kilograms, about 38% of its Earth weight.
Neither. Although you weigh more on earth your mass is the same no matter where you are.
weigh the penny on a scale to the nearest gram
If your mass was 82kg on Earth your mass would still be 82kg on Mercury.Your weight would be different, if you weighed 82kg on Earth you would only weigh 30.9kg on Mercury.
your weight would be 120 kg but your mass would be 60 kg
on a scale
Weight. Actually, a spring balance measures the downward force form a mass under the local gravitational acceleration, e.g. any mass would weigh less on the moon (about one sixth of that on earth.)