At normal pressure, between 161.4 and 165.1 K.
Solid xenon is more dense than liquid xenon. Solid xenon has a higher density because its particles are closely packed together in a solid state compared to the more spread out particles in its liquid state.
Xenon is a gas at 25 degrees Celsius.
There are 10 electrons in the 4d subshell of the ground state of Xenon.
The 4d subshell in the ground state of atomic xenon contains 10 electrons.
Xenon is not visible so in gaseous form,it is odorless and colorless.
At room temperature, xenon is a colorless, odorless gas.
It was a liquid.
Xenon is found in bright fluorescent lights. Xenon is a liquid.
In liquid form.
Solid xenon is more dense than liquid xenon. Solid xenon has a higher density because its particles are closely packed together in a solid state compared to the more spread out particles in its liquid state.
The liquid xenon hasn't color.
"At room temperature" xenon is a gas. However, at other temperatures, its 'natural state' will be liquid or solid.
Xenon is a noble gas, so it is naturally found in a gaseous state at room temperature and pressure.
Bromine is a liquid at room temperature.
Gases such a xenon could be kept in a liquid state by keeping them at low temperature and at high pressure. Xenon belongs to a group of gases known as the noble or inert gases which are very chemically stable. At least some of these gases do not actually form liquids but move straight from gaseous to a "solid like state". This is the case for Helium which rather than form a liquid actually move to a solid powder like state.
Xenon can change state of matter through changes in temperature and pressure. At room temperature and pressure, xenon is a gas. By lowering the temperature below its boiling point of -162 degrees Celsius, xenon can be turned into a liquid. Further reducing the temperature or increasing the pressure can turn xenon into a solid.
165.03 K, −108.12 °C, −162.62 °F at 1atm(0 sea level air pressure)