98.07 newtons (Force = mass x acceleration)
98.0665 Newtons
At the earth's surface, a mass of 1 kg produces a force of about 9.806 N (newtons).
So 10 kg exert a force of about 98.06 N. The exact figure will vary at different altitudes above sea level. 1 newton is also sometimes referred to as 1 kgf (kilogram-force).
98.067 N
or rounded to 98
98.0665 Newtons
ten kilos
10kg
10kg
That would depend on the volume (density) of the 10kg object.
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.
10Kg X 9.81 m/s^2 = 98.1 newtons 98.1N X 4m = 392.4 joules 392.4J/500J X 100% = 78.48% efficient
It would weigh 10kg.
98.07 newtons (Force = mass x acceleration)
That depends on the gravity. On Earth, each kilogram weighs about 9.8 Newton.
10 kilograms is the mass. To calculate the weight (in newtons), multiply the mass by 9.8.
If it weighs 98 newtons on Earth, then we know that its mass is about 10kg. If that figure is its weight somewhere else, then its mass is something else.
10kg
98 Newtons.
On the moon, 10 kg of mass weighs 16.2 newtons (3.65 pounds). (rounded)
10kg equals 100N On Earth, weight is mass multiplied by 10. So If I was 45kg, I would be 450N. Weight changes according to gravity, so on other planets you would weigh differently, but still have the same 10kg mass. Hope that this helped. ^Wrong. You multiply by 9.8 not 10. This is because of gravity on earth.
The same 10 kg weighs 16 newtons on the moon, 35.2 newtons on Mars, 98 newtons on earth, and zero newtons while in space coasting from any one of them to either other one.
That would depend on the volume (density) of the 10kg object.
On earth, 10 kg of mass weighs roughly 98 newtons.