LOTS
As you get farther from the center of Earth, your weight willDECREASE
The weight of the Earth was not discovered but calculated by Sir Isaac Newton using the law of universal gravitation. He estimated the Earth's mass and combined it with the gravitational constant to calculate its weight.
The weight on Mercury is approximately 38% of the weight on Earth. This is because Mercury has lower gravity compared to Earth due to its smaller size and mass.
The weight of the air on Earth exerts a pressure known as atmospheric pressure, which averages around 14.7 pounds per square inch at sea level. This pressure is created by the weight of the air molecules in the Earth's atmosphere pressing down on the Earth's surface.
The weight of an object on Earth is influenced by the mass of the object and the acceleration due to gravity. Weight is calculated by multiplying an object's mass by the acceleration due to gravity (9.8 m/s^2 on Earth). Therefore, variations in either mass or gravity can affect an object's weight on Earth.
The gravitational forces in each direction between the Earth and a sample of matterare equal. The force exerted on the sample by the Earth is what we call the "weight"of the sample. The force exerted by the sample on the Earth is the one that nobodyever mentions, but it's also equal to the weight of the sample. In other words, theweight of the sample on Earth is equal to the weight of the Earth on the sample.
Multiply Earth weight by 0.379 .
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 weight of a person is not constant at all places on the Earth. The weight becomes zero at the center of the earth or far away from the Earth.
In theory, at the center of the Earth you would have no weight.
Europa's weight is about 13.5% of Earth's weight. This is because Europa has a much lower mass and gravity compared to Earth.
To convert your weight from Earth to Saturn, you would first calculate your weight on Earth using the equation Weight = Mass x Gravity, then divide that weight by Saturn's gravity (which is about 1.08 times that of Earth). This would give you an estimation of how much you would weigh on Saturn.
The direct variation formula for weight on Earth compared to weight on the Moon can be expressed as ( W_m = \frac{1}{6} W_e ), where ( W_m ) is the weight on the Moon and ( W_e ) is the weight on Earth. This indicates that an object's weight on the Moon is one-sixth of its weight on Earth due to the difference in gravitational force. Consequently, if you know an object's weight on Earth, you can easily calculate its weight on the Moon using this formula.
Your weight on Mars would be about 38% of your weight on Earth. This is because Mars has a weaker gravitational pull than Earth.
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.