I guess it would would be the same
160 lb
At standard earth gravity, 72 kilograms of mass will have a weight of 158.73 pounds. However, in outer space, the mass will still be 72 kg, but the weight will be 0.0 pounds.
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.
Your weight on the moon is about 16.55% of your weight on Earth. If you weigh 200 pounds on Earth, then you'll weigh 33.1 pounds on the moon. Plus, of course, your space suit and all the rest of the gear you have to wear in order to survive on the moon.
Weight has no value in space. Weight is a function of gravity so in space Venus doesn't weigh anything. But it does have mass - See related question.
The girl's mass on earth is 340 / 9.807 or about 34.67kg (76.4 pounds).
At standard earth gravity, 72 kilograms of mass will have a weight of 158.73 pounds. However, in outer space, the mass will still be 72 kg, but the weight will be 0.0 pounds.
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.
it is called meteorite
If an item has mass, then its mass is constant regardless of where it goes ... whether it's on Earth, in the air, on the moon, or in space on its way from one place to another.
The unit of mass that is used in space is the same unit of mass that is used on Earth. you can use Kg, g, pounds, tones...
If a woman's mass is 60 kg, then she weighs about 588 newtons (132.3 pounds) on the Earth, 97 newtons (21.9 pounds) on the moon, and zero while her ship is coasting or orbiting in space. Her mass of 60 kg never changes, no matter where she is, but that mass has different weights in different places.
Its mass is 368 kilograms, which is equivalent to 811.3 pounds. Its weight depends on the effect of the gravitational field: this can vary by upto 5% on the surface of the earth, can be 0 in outer space, or infinitely large inside a black hole's horizon.
Your mass stays the same but your weight is different because it is the force that the planet's mass attracts your mass with. So if you are on a small planet your weight is less. A body with 100 pounds mass has a weight of 100 pounds on the Earth but only 17 pounds on the Moon, and zero pounds in space.
11,110 kilograms (Weight while on the Earth: 24,493 pounds, about 121/4 tons)
There is every known element floating around in outer space, since that is where most of the elements on Earth originally came from. When a star that is 25 times the size of our own sun goes supernova, it explodes and sends out most of it's mass (24 solar masses) into outer space.
If the Earth kept the same mass that it has now, but that same mass got packed into a sphere with 1/2 the present radius, then a man who weighs 100 pounds on Earth now would weigh 400 pounds on the half-sized Earth. If the outer shell of the Earth's mass were removed and discarded, leaving only the mass that's presently inside 1/2 of the Earth's radius, then a man who weighs 100 pounds on Earth now would weigh 50 pounds on the half-sized Earth. (Assuming that the Earth's mass/density is homogeneously distributed.) (This is all my opinion & I could be wrong.)
1.31708565 × 1025 pounds