9.8 newtons (2.205 pounds)
(both rounded)
Neither. Since they both have a weight of 1kg one cannot be heavier than the other.
Both 1kg of iron and 1kg of cotton would have the same weight in a vacuum. Weight is determined by mass, which is the same for both objects in this scenario.
A 1kg weight would be equivalent to approximately 2.2 pounds, or about the weight of a medium-sized pineapple.
Yes. Since they both have a weight of 1kg one cannot be heavier than the other.
1kg of gold and 1kg of iron weigh the same amount because they both weigh 1 kilogram. The difference between the two lies in their density and value, not in their weight.
The weight of an object on Earth is the same as its mass, which is 1kg in this case. Weight is a measure of the force of gravity acting on an object's mass.
On earth, 1kg is 9.8 newtons.
The weight of 1 kg is 1 kg on Earth. If the force is to be determined, it is 9.8 Newtons due to gravity.
The weight of a 1kg object on the surface of the Moon would be approximately 1/6th of its weight on Earth. This means the object would weigh about 0.1667 kg on the Moon due to the Moon's lower gravity compared to Earth's.
Neither. Since they both have a weight of 1kg one cannot be heavier than the other.
Fg=mg therefore Fg=(1.0kg)x(9.81m/s^2) Fg=9.81N
Both 1kg of iron and 1kg of cotton would have the same weight in a vacuum. Weight is determined by mass, which is the same for both objects in this scenario.
A 1kg weight would be equivalent to approximately 2.2 pounds, or about the weight of a medium-sized pineapple.
The weight of any object is caused by the gravitational field of the nearest, large object. For a 1kg mass on the Earth its weight is about 10 Newtons. On the moon, the same 1kg mass would have a weight of about 2 Newtons.
Approximately 9.8 Newtons (Force weight = mass * acceleration of gravity)
Yes. Since they both have a weight of 1kg one cannot be heavier than the other.
Since they both have a weight of 1kg one cannot be heavier than the other.