The mass stays the same anywhere.. its 10 N
On the moon, 10 kg of mass weighs 16.2 newtons (3.65 pounds). (rounded)
The weight of any object on the Moon is about 1/6 of the weight of the same object on the Earth.
Every object with mass attracts every other object with mass.The bigger the mass the stronger the gravitational pull for example the gravitational pull of the earth is equal to mass multiplied by 10 .On the moon which has a smaller mass gravity is mass multiplied by 0.6
<p> Mass and weight are different physical quantities, Weight is dependent on the gravitational force which the planet on which the object is located applies, while mass is independent of this force, and is the actual 'matter content' of the object. There will be a change in weight of the object if taken on the moon, but the mass will remain unaffected. Mass 10kg implies: Weight (on Earth) = 10*9.8 = 98N As the gravitational force of moon is 1/6th pf that of earth, the weight of that object on Moon will be: 98* (1/6) = 98/6 = 16.33N *The mass will remain unchanged on the moon. </p>
10 kilograms, of course. If you take an object to the Moon, its weight will change, but its mass won't.
On the moon, 10 kg of mass weighs 16.2 newtons (3.65 pounds). (rounded)
Mass doesn't change. The mass of the object would still be 10KG. The WEIGHT of the object would be about 1/6th as much, because the gravity on the Moon is only about 1/6th of Earth's gravity. But the MASS doesn't change.
A 10-kg mass would weigh 98 newtons (22.05 pounds) on earth, and 16 newtons (3.6 pounds) on the moon.
Mass .. The more mass the higher the gravity
The weight of any object on the Moon is about 1/6 of the weight of the same object on the Earth.
Every object with mass attracts every other object with mass.The bigger the mass the stronger the gravitational pull for example the gravitational pull of the earth is equal to mass multiplied by 10 .On the moon which has a smaller mass gravity is mass multiplied by 0.6
<p> Mass and weight are different physical quantities, Weight is dependent on the gravitational force which the planet on which the object is located applies, while mass is independent of this force, and is the actual 'matter content' of the object. There will be a change in weight of the object if taken on the moon, but the mass will remain unaffected. Mass 10kg implies: Weight (on Earth) = 10*9.8 = 98N As the gravitational force of moon is 1/6th pf that of earth, the weight of that object on Moon will be: 98* (1/6) = 98/6 = 16.33N *The mass will remain unchanged on the moon. </p>
it is your weight on earth divided by 10
A newton (N) is actually a unit of force. Since a force is equal to a mass times an acceleration according to Newton's second law, the weight of this object on Earth is equal to 40 N / 9.8 m/s^2 (acceleration of gravity on Earth). This object weighs around 4.1 kg. On the moon, the force of gravity will be less because the moon is less massive. The acceleration of gravity on the moon is 1.62 m / s^2. The force of gravity acting on this object on the moon would be 1.62 m / s^2 * 4.1 kg. This is around 6.6 N and substantially less.
W=mgon earth, weight is approximately 10 times the mass of the object.Weight of an object= mass of object x acceleration due to gravitywhere g on earth ~ 10 ms-2 (=9.81 ms-2 )and mass/ kilograms