5.0 kg
If your mass was 82kg on Earth your mass would still be 82kg on Mercury.Your weight would be different, if you weighed 82kg on Earth you would only weigh 30.9kg on Mercury.
If you are referring to mass, then the percentage would be: Mercury = 0.330x1024kg Earth = 5.97 x1024kg Percentage = mercury/earth = 0.330x1024kg/5.97 x1024kg *100 = 5.5% If you are referring to diameter, the percentage would be: Mercury = 4879km Earth = 12,756km Percentage = mercury/earth = 4879km/12,756km *100 = 38.2%
Mercury has a mass of 3.3022 × 1023 kg The Earth has a mass of 5.9736 × 1024 kg So, Mercury has about 0.055 the mass of Earth.
Mercury has less mass than Earth does, and gravity varies in direct proportion to mass.
Diameter of Mercury is 3031 miles; mass 3.250x1020. Diameter of Earth is 7926 miles (at Equator); mass 5.288x1021. Earth's mass is therefore about 16 times that of Mercury. Volumes can be calculated from diameters.
Weight on the moon is approx one sixth of that on earth so 50kg/6 is 8.3Kg :)
The same as it is on the Earth. Mass does not change, weight does.If you weighed 50kg on Earth you would weigh about 8.3kg on the Moon.
If your mass was 82kg on Earth your mass would still be 82kg on Mercury.Your weight would be different, if you weighed 82kg on Earth you would only weigh 30.9kg on Mercury.
Good question. Yes, your weight would change, but your mass would not. People often confuse weight with mass.If your mass is 50kg, then your weight on Earth is 500N - weight is a force, and it is equal to mass x acceleration due to gravity.Because the force of gravity on the moon is much less, about 1/6 of that on Earth, your weight would be about 80N. Your mass, however, would still be 50kg.
If you had a 50kg weight on Earth, it would weigh ~zero on the space station. It would still have a mass of 50kg--meaning it would difficult to move, and hurt very bad if it wumped you on the head, but placed on a scale, it would show 0. Likewise, if you had that 50kg weight and a scale on an elevator here on Earth, the scale would read 50kg. Say at the top of a 100 floor building, the elevator's cable and safety devices broke and the elevator, you, the 50kg weight and the scale were all in free fall. For a very short time, the 50kg weight would weigh zero. You would weigh zero. The scale would weigh zero. Until the elevator hit the ground.
If you are referring to mass, then the percentage would be: Mercury = 0.330x1024kg Earth = 5.97 x1024kg Percentage = mercury/earth = 0.330x1024kg/5.97 x1024kg *100 = 5.5% If you are referring to diameter, the percentage would be: Mercury = 4879km Earth = 12,756km Percentage = mercury/earth = 4879km/12,756km *100 = 38.2%
Mercury has a mass of 0.33x1024kg, and Earth has a mass of 5.97x1024kg. Thus, Mercury has a smaller mass than earth (or, in other words, Earth has a mass that's about 18x greater than that of Mercury).
If your mass is 50 kg, then you weigh about 18 pounds on the moon, about 39.6 pounds on Mars, about 110 pounds on earth, and exactly zero while you're coasting through space at constant speed on your way from one of them to another. Your 50kg doesn't change. That's your 'mass', not your weight.
Mercury has a mass of 3.3022 × 1023 kg The Earth has a mass of 5.9736 × 1024 kg So, Mercury has about 0.055 the mass of Earth.
I dont think there can ANY earths that can be the mass of mecury. mercury is smaller than earth
I dont think there can ANY earths that can be the mass of mecury. Mercury is smaller than earth
Yes there is. Its mass is about 5.5% of the earth's mass.