atmosphere
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The weight of the air on Earth's surface is approximately 14.7 pounds per square inch (psi), or 101.3 kilopascals (kPa). This pressure is due to the force exerted by the column of air above us, known as atmospheric pressure.
While we often use this conversion factor, it is not true. pounds (weight) is a force while kilograms are a mass. but this is the weight of a kilogram on the earths surface (where g=9.81) but on the moon's surface 1Kg is approximately .367 pounds.
Surface tension.
The moons gravity is a lot lower than the Earths, so the men exploring the lunar surface will weigh a lot less, roughly 1/6th of what they do on earth.
The weight of any object on the surface of the moon is 16.55% of its weight on the surface of the Earth.
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The weight of the air on Earth's surface is approximately 14.7 pounds per square inch (psi), or 101.3 kilopascals (kPa). This pressure is due to the force exerted by the column of air above us, known as atmospheric pressure.
You call it the "weight" of objects on Earth.
Gravitational potential energy.
weight
The weight of air on Earth is called atmospheric pressure. It is the force exerted by the weight of air molecules in the Earth's atmosphere on a surface.
The force exerted on an object by Earth's gravity is called weight. It is the force that pulls objects towards Earth's center.
Pressure varies with height as a function of specific weight. p=p0+specific weight*height Where height is the distance below the reference pressure p0 (usually at a free surface).
Weight = mass x g ... the gravitational acceleration at the earth's surface. Fwt = mg = 3.5 x 9.8 = 34.3 n
if you double the earths density say , standing at the surface you would experience twice the acceleration, weight would be doubled
If you want to get extremely precise it depends on WHERE on Earth's surface it's located, because the Earth's gravitational pull at the surface varies slightly from location to location.That said, 980 newtons is going to be in the right ballpark.