40 kilograms
The 40kg student's force (weight) on Earth is about 392.28 newtons. (Force = mass x acceleration). Earth's acceleration is 9.807 meters per second squared.
Answer 1:551.1557 lbs.Answer 2:An oddly phrased question.On Earth, a person massing 250 kilograms also weighs 250 kilograms. Or 550 pounds.On the moon, he would weigh about 1/6th that amount. On Mars, about 1/3rd that amount. In free fall, he would weigh zero kilograms.His mass would of course always remain the same.
Mass is a characteristic of the person or object. It stays with him/it and doesn't change no matter where he/it goes. "Newtons" is not a measurement of mass. It's a measurement of force, and it could represent the person's weight. If the person weighs 490 newtons on Earth, then his mass is about 50 kilograms anywhere, and he would weigh about 81 newtons on the moon.
Near Earth's surface, it would weigh about 98 newton.Weight = mass x gravity And, close to Earth, the gravitational field ("gravity") is about 9.8 newton/kilogram.
There is gravity on the moon! The gravity on the Moon is 1/6th that of what is observed on Earth. An object with a weight of 36 kg on Earth would weigh 1/6th that on the Moon. 1/6th of 36kg is, 6 kg. An object with a MASS of 36 kg on Earth would have the same 36 kg MASS on the moon. Mass is the amount of matter that makes up an object, whereas WEIGHT is the measurement of the force of gravity on that MASS. This is why your weight will change when visiting other planets, but your mass stays constant plant to planet!
Kilograms are a measure of mass, as opposed to 'weight.' You would weigh 35 pounds, or 155 newtons, on the moon. This would feel like 15 kilograms on earth.
You cannot weigh 45 kilograms because a kilogram is a measure of mass, not of weight. If your mass is 45 kilograms, your weight on the surface of the sun would be 12330 newtons.
You cannot convert from newtons to kilograms because the newton is a force unit and the kilogram is a mass unit. However, near the surface of the earth, a 22.9-kg mass would weigh 225 newtons.
The 40kg student's force (weight) on Earth is about 392.28 newtons. (Force = mass x acceleration). Earth's acceleration is 9.807 meters per second squared.
185 pounds equals 83.9kg or 822 Newtons.
Multiply the mass (in kilograms) by the gravitation (9.8 meters per second square, near the Earth's surface), and you get the weight (in Newtons).
on the moon it will weigh roughly 1/6 the amount of newtons as it does on earth. So 16.7 on earth would be about 2.8 newtons on the moon.
Your mass (kilograms) would stay the same as it never changes. But if you are talking about weight (newtons) it would depend on what you were comparing it to. If you have a weight of 300 newtons on earth then you would weigh 49.8 newtons on the moon therefore you would have lost weight. Whereas if you weighed 20.1 Newtons on Pluto you would weigh 49.8 newtons on the moon, loosing weight.
Answer 1:551.1557 lbs.Answer 2:An oddly phrased question.On Earth, a person massing 250 kilograms also weighs 250 kilograms. Or 550 pounds.On the moon, he would weigh about 1/6th that amount. On Mars, about 1/3rd that amount. In free fall, he would weigh zero kilograms.His mass would of course always remain the same.
53kg equates to about 520 newtons (on Earth).
"Newton" is a unit of force, whereas "kilogram" is a unit of mass. To find the weight of any mass, multiply the mass by the local acceleration of gravity. -- On Earth, 600 kilograms of mass weigh 5,884.2 newtons. (rounded) -- On the moon, the same 600 kilograms weigh 973.8 newtons. (rounded) -- On Mars, the same 600 kilograms weigh 2,226.6 newtons. (rounded) -- In other places, the same mass has different weight. -- If it's inside a space vehicle coasting from one place to another, it has no weight at all.
Mass is a characteristic of the person or object. It stays with him/it and doesn't change no matter where he/it goes. "Newtons" is not a measurement of mass. It's a measurement of force, and it could represent the person's weight. If the person weighs 490 newtons on Earth, then his mass is about 50 kilograms anywhere, and he would weigh about 81 newtons on the moon.