If Earth rotated as slowly as Mercury, the days would be much longer, lasting about 176 Earth days. Regions close to the poles would experience extreme temperature variations between day and night due to the long periods of sunlight and darkness. The atmosphere and weather patterns would be greatly affected, potentially leading to more extreme climate conditions.
The gravity on Mercury is about 38% of Earth's gravity, which means you would weigh less on Mercury than on Earth.
No. On Mercury you would weigh 37% of what you weigh on Earth.
The gravity of Mercury is about 38% of Earth's gravity. This means that objects on Mercury weigh about 38% of what they would weigh on Earth.
You would weigh 27.2lbs 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%
If the Earth rotated more slowly, days would be longer, resulting in longer periods of daylight and darkness. This would impact activities that are tied to daylight, such as work hours and productivity. It could also affect weather patterns and climate, potentially leading to changes in ecosystems and agriculture.
No.
You would slowly die from the brain damage mercury causes.
A theory says that time would be quicker.
The gravity on Mercury is about 38% of Earth's gravity, which means you would weigh less on Mercury than on Earth.
No. On Mercury you would weigh 37% of what you weigh on Earth.
Everything The sun provides for earth
Everything The sun provides for earth
The gravity of Mercury is about 38% of Earth's gravity. This means that objects on Mercury weigh about 38% of what they would weigh on Earth.
You would be only 38% of your weight on Mercury as you are on earth. If you weigh 180 pounds on earth you would then only weigh 68.4 pounds on Mercury.
No it would probably weaken. The Earth's magnetic field is due to a combination of two factors: Earth's relatively high iron content and Earth's relatively high rotation speed. If you reduced either factor you should expect the magnetic field's strength to be reduced.
No. While the day side of Mercury is quite hot, it is not nearly as hot as lava. So any lava that would erupt on Mercury would still cool down and solidify. The lack of an atmosphere would mean that the lava would cool more slowly than lava on Earth does.