On earth, 1 kilogram of mass weighs 9.8 newtons.
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∙ 12y agoA ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.
If the mass of the apples is 3,249 grams, their mass is also equal to 3.249 kilograms.(Their weight on earth is 31.84 newtons, or 7.163 pounds. In other places,it would be different. The 'kilogram' is not properly a unit of force or weight.)
Kilogram is a measure of mass but in common parlance "weight" is used to mean "mass" therefore one would normally use the kilogram. The difference between weight and mass is only important when you need to be scientifically rigorous. Then you would use Newtons which is the scientifically correct unit of weight.
1 kg of anything will weigh approximately 3.7 Newtons on Mars. (Force weight = mass * acceleration of gravity)
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).
A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.A ton is 1000 kilogram, so it is a unit of mass; a Newton is a unit of weight. Assuming normal Earth gravity, each kilogram weighs about 9.82 Newtons, so a ton would weigh 9820 Newtons. But under other circumstances, the same kilogram could weigh more, or less.
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.
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.
Newtons is a unit of weight or force. The mass unit would be kilograms. 1 liter of water has a mass of 1 kilogram. On Earth, this would have a weight of 9.8 Newtons.
No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:weight = mass x gravityIn the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:weight = mass x gravityIn the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:weight = mass x gravityIn the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.No. Matter is (informally) the "amount of substance", while weight is the force with which an object gets attracted, through gravity. They are related by the formula:weight = mass x gravityIn the case of Earth, gravity is approximately 9.8 meters / second square, the same as 9.8 Newton / kilogram, so each kilogram has a weight of 9.8 Newtons. On the Moon (for example), each kilogram would only weigh about 1.6 Newtons.
Kilograms * * * * * No you would not! A kilogram is a measure of mass. Weight is measured 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.
None of them. A gram, kilogram or milligram are all measures of mas, not weight. Weight is measured in Newtons!
On earth, that much mass weighs 313.6 newtons (70.55 pounds).
It would weight 1/6 of what it weighs on Earth. The weight, of course, would depend on the exact bottle. For example, a 2-liter bottle has a mass of about 2 kg, and would weigh 20 Newtons on Earth. On the Moon, it would weigh a little over 3 Newtons.
If the mass of the apples is 3,249 grams, their mass is also equal to 3.249 kilograms.(Their weight on earth is 31.84 newtons, or 7.163 pounds. In other places,it would be different. The 'kilogram' is not properly a unit of force or weight.)
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.