159.8 grams
The masses (Atomic Mass) on the Periodic Table are the mass of 1 mole of the element. So all you have to do is find the atomic mass of bromine (79.9 grams) and multiply it by two since there are two atoms in the molecule.
159.808 g/mol
No, molecular bromine is bonded by a single bond.
Bromine (molecular Br2) is an covalent compound
It has a linear shape
Bromine is a diatomic liquid under normal conditions with a molecular formula of Br2
No, Br2 is actually a London dispersion. The reason that Br2 is a dispersion is because dispersion forces are weak forces that result from temporary shifts in the density of electrons in the electron clouds.
First convert the volume of the Br2 into grams by using:D=M/VSo we are given that volume=16.0 ml and density=3.12g/ml.M=D*VM=(3.12g/ml)*(16.0ml)=49.92 gThen we use #moles of a substance=#grams present/Formula weight(# of grams of Br2 in 1 mol of Br2)The Formula weight(molar mass) of Br2=2*(79.9 g/mol)=159.80 g/mol Br2#moles of Br2=49.92g/159.80g/mol Br2=.312 moles of Br2 present.
Molecular nitrogen is: N2 Molecular bromide is: Br2 Nitrogen tribromide is: NBr3
No, molecular bromine is bonded by a single bond.
No. Bromine is an element. Br2, dibromine, is the diatomic form of the element. A compound is formed from 2 or more different elements.
2 atoms of Bromine[Br] are in Molecular Bromine(Br2)
Bromine (molecular Br2) is an covalent compound
It has a linear shape
Bromine is a diatomic liquid under normal conditions with a molecular formula of Br2
Bromine is a diatomic liquid under normal conditions with a molecular formula of Br2
No, Br2 is actually a London dispersion. The reason that Br2 is a dispersion is because dispersion forces are weak forces that result from temporary shifts in the density of electrons in the electron clouds.
2NaBr (aq) + Cl2 (g) --> 2NaCl (aq) + Br2 (g) I believe that this is right :)
Bromine is an element and has the symbol Br.