At the center of the earth, your weight would measure zero on a scale.
That is because the mass of the earth is evenly distributed all around you pulling you equally in all directions.
You would have the same mass as on the surface (assuming you didn't burn up from the hot hot hotness down there) but you would weigh 0. Weight is the measurement of gravity's effect on a mass.
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.
weight on earth=x weight on moon=z formula=x divided by 6 = z i think i splaind it right EXAMPLE: weight on moon=weight earth divided by gravity weight on moon=250N divided by 6 weight on moon=41.66. an object that weight 250N on earth, weight 41.66N on moon. A+=6
The weight of any object on the Moon is about 1/6 of the weight of the same object on the Earth.
The weight of an object on the moon is about 1/6th of its weight on Earth. This is because the moon's gravity is weaker than Earth's gravity. So, if an object weighs 60 pounds on Earth, it would weigh about 10 pounds on the moon.
Weight is what we call the amount of the gravitational force between the Earth and an object on the surface of the Earth. It works both ways. Your weight on the Earth is also the Earth's weight on you.
5.28 x 10000000000000000000 kg is the weight of air for the entire atmosphere.
The weight of a tube of air as high as the Earth's entire atmosphereis 14.6 lb per square inch at the bottom of the tube.
If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.If you mean the weight of the entire planet Earth, the question is, "weight on what". Gravitation is always a force between two objects. For example, if you have a mass of 60 kg., then you weigh about 600 Newton. This is the force with which Earth attracts you. By Newton's Third Law, you will attract planet Earth with the same force: 600 Newton. So, in this example, the "weight of Earth" (against you) is 600 Newton. The force with which Earth attracts, and is attracted by, other objects, will vary, depending on the mass of the other object, and the distance.
Pressure increases as you go deeper into the Earth due to the weight of the overlying material pushing down. At the center of the Earth, the pressure is at its maximum, as the entire mass of the Earth is acting to compress the material at that point.
Planet Earth.
Multiply Earth weight by 0.379 .
Because the weight is pressing on your entire body, from all directions at once, it doesn't press you toward the Earth. It's the same reason the weight of the water over them doesn't crush fish.
AS WE KNOW, that there is the force of gravity at the center of Earth, if every part or portion of earth has its weight then net weight of the earth will be zero........
Based on surface gravity, your weight on each planet would be: Mercury: 38% of your weight on Earth Venus: 91% of your weight on Earth Mars: 38% of your weight on Earth Jupiter: 236% of your weight on Earth Saturn: 113% of your weight on Earth Uranus: 92% of your weight on Earth Neptune: 113% of your weight on Earth These values are approximate and assume a similar mass and body composition.
Your weight on Mars would be about 38% of your weight on Earth because Mars has a weaker gravitational pull than Earth.
The three most abundant elements in Earth's crust are oxygen, silicon, and aluminum. Oxygen is the most abundant element overall, comprising about 46% of Earth's crust by weight.
The estimated weight of the entire population of the Earth is difficult to determine as it would depend on factors such as age, size, and body composition. However, a rough estimate would be around 316 million tons.