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On Earth, 90 kg of mass weighs 882 newtons (198.4 pounds).
About 162 pounds on Earth.
Nothing, but his weight is 1/6 of his weight on Earth.
Any object that has mass has weight even in space. If an astronaut weighs 195 pounds while standing on the planet then he/she will also weigh 195 pounds while in space. Earths gravity, which determined the weight, will exert the same force on this astronaut because the mass is the same. While in space, it may appear the astronaut is "floating", he/she is actually in free fall. What this means is, as they travel around the planet they are in reality "falling" to Earth but, for every inch they fall, the planet move an inch out of their way.
It is 15.86 pounds
On Earth, 90 kg of mass weighs 882 newtons (198.4 pounds).
-- To get the earth weight, multiply the moon weight by 6.08 .An astronaut who weighs 27 pounds on the moon weighs 164.1 pounds on earth.-- To get the moon weight, multiply the earth weight by 0.165 .His wife, who weighs 115 pounds on earth, would weigh 19 pounds on the moon.
A pound is a unit of mass. Mass is constant throughout the cosmos, so if the astronaut has a MASS of 180 pounds on Earth, it will be the same even in space. But, the astronaut doesn't have a weight of 180 pounds. His MASS is 180 pounds. Weight = mass x gravity. So, in space, his weight is 0 Newtons.
Because anything on the surface of the moon has only about 1/6 the weight that it has on the Earth's surface.
About 162 pounds on Earth.
162 pounds on Earth.
About 160 pounds.(Less than that if the 27 pounds on the moon included his space suit.)
Nothing, but his weight is 1/6 of his weight on Earth.
This object has a weight on Earth of 67.5 pounds.
If something weighs 127kg on Earth it will weigh 21kg on the Moon.
About 700N 70kg • 10m/s = 700N
earth, because earth has a greater gravitational pull