The gravitational kinetic speed for Earth is: 9.8 m/s^2 \ 9.8 -/+.5 m/sec^2
The gravitational kinetic speed for Mars is: 3.69 m/sec^2 \ 3.79-/+.5 m/sec^2
So, let's say something like this:
K = UJ
K is the weight,
U = 50 kg
J = (3.69 m/sec^2 \ 3.79-/+.5 m/sec^2)
K = (50 kg)*(3.69 m/sec^2 \ 3.79-/+.5 m/sec^2)
K = 184.5 Newtons
So, your weight on Mars would be: 184.5 Newtons.
If your mass is 50 kilograms, then your mass is 50 kilograms, no matter where you are.
You weigh 490.4 newtons (110.2 pounds) on Earth, and 186.1 newtons (41.8 pounds) on Mars.
"Kilograms" is mass, not weight.
If your mass is 50 kg, then you weigh 490 newtons (164 pounds) on Earth,
and you weigh 186 newtons (41.7 pounds) on Mars.
This discussion brings us very close to the big reason why things should not be
weighed in kg.
As long everything stays on the Earth, it's convenient to use 'kg' to describe weights ...
It's wrong, but it's convenient.
As soon as things begin to leave the Earth, though, we have a real mess.
A kilogram of mass doesn't 'weigh' a kilogram any more. One kg of mass
'weighs' 0.165 kg on the moon, 0.379 kg on Mars, and 2.53 kg on Jupiter.
Try to keep up with a system like that, and the US and USSR would still be locked
in a fierce struggle to orbit the first artificial satellite, 55 years after Sputnik-I.
If your mass is 50 kg, then you'll weigh 490 newtons (110.2 pounds) on earth,
80 newtons (18 pounds) on the moon, and 186 newtons (41.8 pounds) on Mars.
Your mass doesn't change; it's 50 kg no matter where you are.
Well that is not a good question but if you weighed 100 lb on Earth you would weigh 38 lb on Mars
Gravitational acceleration on mars is: 3.711 m/s2
On Earth its: 9.78 m/s2
3.711 / 9.78 = 0.379
50 kg * 0.379 = 18.97
So you would weigh approximately 19kg
The surface gravity on Mars is only about 38% of the Earth's.
38% of 50 kilograms gives the answer 19 kg.
50 kg is a measure of mass and not weight. Your mass would be 50 kg - on Mars or anywhere else.
19kg
The equatorial gravity on Mars is 3.69 m/s2 or 0.376g (37% that of Earth). If you weighed 100 lbs on Earth you would weigh 37.7 lbs on Mars
About 19 pounds
Yes, but it is much less than on Earth. If you weigh 150 pounds on Earth you would weigh just 56.5 pounds on Mars. The specifics of the gravity on Mars is tjat it is 62% lower to be more precise. That means that Martian gravity is 38% of Earth's.
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 need to:1) Divide the weight by Earth's gravity, to get the mass. 2) Remember that the mass will be the same on Mars. 3) Multiply the mass by the gravity of Mars, to get the weight on Mars.
how much would you weigh if you were 1001lbs on earth then you went to mars
You would weigh 17.719 kg.
76 pounds on Mars.
On Mars you would weigh pi pounds.
If you weighed 78 pounds on earth, you would weigh 29.4 pounds on mars.
Mars's gravitational pull is 38% that of Earth's, meaning you would weigh 38 pounds on that planet.
Yes. The gravity of Mars is only 1/3rd of Earth's at the surface. If you weighed 120 pounds on Earth, you would only weigh 40 pounds on Mars (without a spacesuit).
no, say if you weighed 1kg on earth than you would weigh 0.1 on the moon and 0.3 on mars
The mass and diameter of the planet Mars is less that of Earth so there are changes to how the gravity effects you. This would cause a normally 150 pound person to only weigh 56 pounds on Mars.
40N is 15.08N on Mars.
If you weighed 100 lb on Earth you would weigh 37.7 lbs on Mars1lb = 0.3775lb = 1.88510lb = 3.7725lb = 9.42550lb = 18.85100lb = 37.7150lb = 56.55200lb = 75.4500lb = 188.5Or multiply x 0.377
Mars has a gravitational pull about 38% of that on earth. So if you weigh 100 pounds on earth, you would only weigh 38 pounds on mars. If you are a kid that weighs about 80 pounds, you would weigh only about 30.4 pounds on mars!