Bromine exists as a diatomic gas. Thus, there are two moles of bromine atoms in 1 mole of bromine gas.
.467 mol of Bromine gas
What happens to bromine gas in a sealed tube when it is cooled and later heatedAnswer:When bromine is cooled and then heated in a sealed container, the bromine juice starts evolving in a gaseous state. It then becomes a gas i.e. bromine gas which is red-brown in color
Bromine is a halogen which can be a gas or liquid depending on the temperature. At room temperature bromine is a liquid metal.
Bromine has a diatomic molecule, Br2.
Bromine is a liquid at room temperature, but after 58,8 0C bromine become a gas.
Bromine exists as a diatomic gas. Thus, there are two moles of bromine atoms in 1 mole of bromine gas.
No, bromine gas is not a compound. It is a diatomic molecule consisting of two bromine atoms bonded together.
.467 mol of Bromine gas
Bromine exists as a liquid at room temperature and pressure. It can also be found in gaseous and solid forms under different conditions.
What happens to bromine gas in a sealed tube when it is cooled and later heatedAnswer:When bromine is cooled and then heated in a sealed container, the bromine juice starts evolving in a gaseous state. It then becomes a gas i.e. bromine gas which is red-brown in color
The noble gas that comes before bromine is argon.
Bromine gas is a pure substance, which means it is not a mixture. It is a diatomic molecule composed of two bromine atoms bonded together, making it a compound.
Bromine is a halogen which can be a gas or liquid depending on the temperature. At room temperature bromine is a liquid metal.
Bromine has a diatomic molecule, Br2.
Chlorine gas will diffuse faster than bromine gas because it has a lower molecular weight and therefore moves more quickly through a medium. The rate of diffusion is inversely proportional to the square root of the molar mass of the gas, so lighter gases diffuse faster.
Under most readily achieved temperature and pressure conditions, bromine gas exists as diatomic molecules. Bromine is always an element.