3 kg 30 newtons
one kilogram.
Unchanged - mass is not gravity dependent.
10 kilograms, of course. If you take an object to the Moon, its weight will change, but its mass won't.
The mass of the sugar will remain the same, 1 kilogram, regardless of location. Weight (which is affected by gravity) is what changes depending on location. On the Moon, the bag of sugar will weigh less due to the weaker gravitational pull compared to Earth.
A 1 pound bag on the moon contains more apples. weight equals mass× gravitational aceleration. since the acceleration on earth is nearly 6 time the acceleration of the moon, thus if both bags have the same weight and the apples' mass on earth is x then there mass on moon is 6x
one kilogram.
Unchanged - mass is not gravity dependent.
A kilogram (mass) on the moon is still a kilogram (mass)A kilogram (referred to as its weight) is about 1/6 of it's Earth weight or 160 g (approx)Aside: In common usage we talk about an object having a weight, not a mass (e.g. Your driver's license states your weight). In science a kilogram is a unit of mass. Weight is what we perceive when we try to lift that mass - it is the force of gravity pulling the kilogram mass to the Earth. It gets a bit confusing when you are at Earth's surface because a the kilogram mass has a numerically kilogram of force (usually referred to as weight) attracting it downwards.
10 kilograms, of course. If you take an object to the Moon, its weight will change, but its mass won't.
The mass is 1 kilogram anywhere. The mass doesn't change.The weight of 1 kilogram is 9.8 newtons (2.205 pounds) on earth,and 1.6 newtons (5.8 ounces) on the moon.
The mass won't change, so the answer is 100 kg.
25.41
Unchanged - mass is not gravity dependent.
For astronomical objects, it is more appropriate to talk about the mass of an object, not about its weight. The Moon has a mass of 7.35 x 1022 kilogram, that is about 1.2% of Earth's mass.
Half a kilogram is the mass in this case.Half a kilogram is the mass in this case.Half a kilogram is the mass in this case.Half a kilogram is the mass in this case.
the gold would have more mass unless there is no gravity like on the moon then they would both fall at the same time.
The weight of 1 kilogram of iron on Earth is greater than the weight of 1 kilogram of iron on the Moon. This is because weight depends on the gravitational pull of the celestial body, and Earth has a stronger gravitational force than the Moon.