No, they would both fall at the same speed.
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.
50kg's of course.
Weight on the moon is approx one sixth of that on earth so 50kg/6 is 8.3Kg :)
I'm not sure of any excercises that a wheelchair-bound person can do, how about trying to lift weights?
1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft 1 bag=50kg=1.25cft
forever!
I think it would be 25 kg - 50kg
50KG 50KG
36% of 50kg= 36% * 50= 0.36 * 50= 18kg
A 50Kg man is a small light man and therefore when on a horse, the horse can run faster than if the jock weighed 100Kg.
2.2Kg= 1lb divide 50Kg by 2.2 to get pounds
half of his original weight say he was 100 kg he would be 50kg on the moon