Lithium metal when burned in air would form Lithium Oxide.
2Li (s) + O2 (g) --> Li2O (aq)
2Li(s) + Br2(g) ----> 2LiBr
But this is a very fast reaction, so mechanism is unknown. More than 50% ionic compound.
The equation for this reaction is 2 Li + Br2 -> 2 LiBr. The product is named lithium bromide.
Lithium metal and bromine gas react to form lithium bromide which is a solid substance.
The reaction is as follows:-
Li(s) + Br(g) -----> LiBr(s)
Is allways a solid untill mented.
= Lithium bromide
2Li + Br2 = 2LiBr
d (a plus)
lithium bromide
48.5
The lithium is oxidized an the bromine is reduced. In a chemical reaction involving a metal in elemental form, the metal will be oxidized.
a displacement reaction
lithium donates an electron to bromine
Lithium Bromine
2 Li + Br2 -> 2LiBr2
48.5
The lithium is oxidized an the bromine is reduced. In a chemical reaction involving a metal in elemental form, the metal will be oxidized.
potassium cyanide
4 Li + O2 = 2Li2O.
a displacement reaction
LiBr would be the chemical formula. Lithium has +1 electron and Bromine has -1 electron so they combine easily.
The chemical symbol (not equation) of lithium is Li.
lithium donates an electron to bromine
An ionic equation refers to a chemical equation wherein electrolytes are written as dissociated ions. The complete ionic equation of the reaction between hydroiodic acid and aqueous lithium sulfide is: 2HI + Li2S -> 2LiI + H2S.
No reaction between lithium and argon.
Lithium and water react to produce lithium hydroxide and hydrogen, along with considerable heat.