Analyse the chemical equation given for the reaction between nitrogen and hydrogen to give ammonia.
`N _(2) + 3 H _(2) to 2 NH _(3)`
Find the total number of molecules and atoms of the products.

Analyse the chemical equation given for the reaction between nitrogen and hydrogen to give ammonia. N _(2) + 3 H _(2) to 2 NH _(3) Find the total number of molecules and atoms of the reactants.

Analyse the chemical equation given for the reaction between nitrogen and hydrogen to give ammonia. N _(2) + 3 H _(2) to 2 NH _(3) What is the relation between the number of atoms of the reactants and products?

Analyse the chemical equation given for the reaction between nitrogen and hydrogen to give ammonia. N _(2) + 3 H _(2) to 2 NH _(3) What are the reactants and products in this reaction?

The reaction between NH2- and N2 O gives

N_2(g)+3H_2(g)harr2NH_3(g) in this equation what is the total number of moles of the reactant molecules.

Examine the chemical equation given below and write the forward and backward reaction N_2(g)+3H_2(g)harr2NH_3(g)

What is the difference between the number of carbon atoms and hydrogen atoms in C_2H_6 and C_3H_8

Calculate number of moles produced if 200 g of hydrogen reacts with nitrogen to form ammonia. N_2(g)+3H_2(g) rarr 2NH_3(g)

Based on the reaction given below, write the answer for the questions. N_2+3H_2rarr2NH_3 . Write the ratio of the reactant molecules and product molecules.

If 6.023xx10^23 molecules of N_2 react completely with H_2 according to the equation: N_(2(g)) + 3H_(2(g)) rarr 2NH_(3(g)) , then calculate the numbers of molecules of NH_3 formed.