Uranus is a solid planet, not so dense.
it is the same as earth's 9.8 m/seconds squared
Solids are the most dense state of matter
With the help of some physical and chemical processes matter changes its state. Like using heating , cooling etc we can change the state of matter,
the state of matter that changes shape when placed in a different container is water
Gravity, as far as we can tell, is generated simply by matter making holes and dents in space, thus, the more matter you have, the stronger the gravitational pull. Uranus is MUCH bigger than the earth. I don't know the exact measurement, but it is BIG. So if Uranus is so much bigger than earth, how strong do you think the gravitational pull would be?
Yes. All planets are made of matter.
It is not possible to study the geology of Uranus because geology is the study of the solid matter of a celestial body. Uranus is a gas planet and does not have a solid surface.
The same age as you are here, or anywhere else for that matter
it is the same as earth's 9.8 m/seconds squared
1st state of matter- solid 2nd state of matter- liquid 3rd state of matter- gas 4th state of matter- plasma 5th state of matter- Bose Einstein condensate 6th state of matter - fermionic condensate 7th state of matter- thought to be Fermionic condensate
No, the Empire State Building is less than 1/4 mile tall (1250 feet). Uranus has a diameter of 32,000 miles.
No, The state of matter only affects its' concentration. No matter what state matter is in, it will always have the same mass (assuming it doesn't drip or float away). However, the state of matter can affect the area or volume of matter.
coppers state of matter is solid.
plasma is the 4th state of matter....
Quartz is a solid state of matter.
This state of matter is the solid.
It is in a solid state of matter.