50 newtons
Gravitational acceleration at Mars' surface = 3.7 m/sec2 = (3.7/9.8) = 0.3776 of its value at earth's surface.An object that weighs 115 on earth would weigh [ 115 x (3.7/9.8) ] = 43.418 on Mars. (rounded)
Mars. Because if you weigh 105 pounds here on earth then you would weigh 39.5 pounds on Mars while on Venus you would weigh 95.2. The whole jump height is all about the amount of force in Newtons you put into it and how much you weigh. So net time you think "Could you jump higher on Venus or on Mars?" Just think about the weight you have and the amount of force you put into it.
On Mars, you'd weigh 41.04 pounds.
No. An object on Mars would weigh about 38% of what it does on Earth. The _mass_ would be the same, however, so you would be able to lift it easier, but pushing it and stopping it would be the same as on Earth.
If you look up "Mars" on the Wikipedia (or some other source), and specifically look for "Surface gravity", you will see that it is 3.711 meter / second squared. This is equivalent to 3.711 newton / kilogram. That is, each kilogram has a weight of 3.711 newton.
Well, if you weigh 150 pounds on Earth you would weigh 56.5 pounds on Mars.
1 kg of anything will weigh approximately 3.7 Newtons on Mars. (Force weight = mass * acceleration of gravity)
Gravitational acceleration at Mars' surface = 3.7 m/sec2 = (3.7/9.8) = 0.3776 of its value at earth's surface.An object that weighs 115 on earth would weigh [ 115 x (3.7/9.8) ] = 43.418 on Mars. (rounded)
The acceleration of gravity on the surface of Mars is 3.7 m/sec2 (12.1 ft/sec2). That's about 38% of the acceleration of gravity on the surface of earth. So for every 100 newtons (or 100 pounds) that something weighs on earth, it would weigh about 38 newtons (or 38 pounds) on Mars.
Mars. Because if you weigh 105 pounds here on earth then you would weigh 39.5 pounds on Mars while on Venus you would weigh 95.2. The whole jump height is all about the amount of force in Newtons you put into it and how much you weigh. So net time you think "Could you jump higher on Venus or on Mars?" Just think about the weight you have and the amount of force you put into it.
An object that weighs 100 pounds on earth would weigh about 37.9 pounds on Mars.
All you need to know to answer this question is the acceleration due to gravity on Mars, which is 3.71 m/s. Plugging that number into the equation F = m*gm, where F is the force on the object due to gravity, also called its weight, m is the mass of the object and gm is the acceleration due to gravity on Mars. The result is 185.5 kg*m/s or 185.5 N.
how much would you weigh if you were 1001lbs on earth then you went to mars
On Mars, you'd weigh 41.04 pounds.
If that is your eath weight then you weigh 54.6-non the moon,about 124.9-n on Mars, and about 834.2-n on Jupiter.
No. An object on Mars would weigh about 38% of what it does on Earth. The _mass_ would be the same, however, so you would be able to lift it easier, but pushing it and stopping it would be the same as on Earth.
On Mars you would weigh only 37.7 pounds.