Lithium + Chlorine ---> Lithium Chloride + Hydrogen L2 + Cl2 ---> 2LiCl + H2
2LiClO3 --> 2LiCl + 3O2
Li2CO3 + 2HCl → 2LiCl +CO2 + H2O
The chemical equation is:MgCl2 + Li2CO3 = MgCO3(s) + 2 LiCl
I have no idea what you mean by "most correct product", but assuming that there is sufficient (excess) chlorine, you get lithium chloride and elemental bromine For A plus 2LiCl + Br2
Lithium + Chlorine ---> Lithium Chloride + Hydrogen L2 + Cl2 ---> 2LiCl + H2
2LiClO3 --> 2LiCl + 3O2
Li2CO3 + 2HCl → 2LiCl +CO2 + H2O
The chemical equation is:MgCl2 + Li2CO3 = MgCO3(s) + 2 LiCl
Assuming a idealized double displacement reaction. 2LiCl + Mg(OH)2 --> MgCl2 + 2LiOH
I have no idea what you mean by "most correct product", but assuming that there is sufficient (excess) chlorine, you get lithium chloride and elemental bromine For A plus 2LiCl + Br2
2Li + 2HCl à H2 + 2LiCl
2LiBr(aq) + Cl2(g) = 2LiCl(aq) + Br2(l) will result in .167 moles of lithium chloride.
Li2O is the answer because the decomposition of a binary compound, a compound made up of two elements, into the two individual elements in their standard form. This process usually requires energy in the form of heat or electricity to be supplied.
Li2CO3 + 2HCl --> 2LiCl + CO2 + H2O The gas formed would be carbon dioxide.
Lithium fluoride has the chemical formula LiF. It is a common salt, known as an alkali halide.
You would start by simply writing your reactants and products out, noting this is a double replacement reaction. BaCl2 + Li2SO4 -----> BaSO4 + LiCl Then you would need to go back and balance the equation. Note in the above that there are two chloride ions on the left but only one on the right. This can be balanced by placing a coefficient of 2 in front of LiCl. BaCl2 + Li2SO4 -----> BaSO4 + 2LiCl This is now a balanced equation.