There is no fixed technique actually. You need to take a arbitrarily number together the number of molecules because that #NH_3#, then calculate result.

As for here, I have taken #4# together the number of molecules that #NH_3#. That method #4# nitrogen atoms and also #12# hydrogen atoms space taking part in this reaction.

You are watching: Nh3+o2=n2+h2o

Now, hydrogen atoms are present only in #H_2O# as a product in this reaction. For this reason that provides #6# molecule of #H_2O# (as there are #12# hydrogen atoms).

Now, once we calculate the number of molecules of #H_2O#, we additionally got the number of oxygen atoms current there.

On the other hand, together there are #4# molecule of #NH_3#, there needs to be #4# molecules of #NO_2# as well to balance the number of nitrogen atoms in both side of the reaction.

That renders #8# one more atoms that oxygen.

So currently the total number of oxygen atoms is #(8+6)# or #14#, which method #14# atom or #7# molecule of oxygen.

So the final balanced reaction is :

#4NH_3 + 7O_2 -> 4NO_2 + 6H_2O#

Nikka C.
Oct 24, 2015

Two possible answers: (1) #2NH_3# + #7/2O_2# = #2NO_2# + #3H_2O# or (2) #4NH_3# + #7O_2# = #4NO_2# + #6H_2O#

Explanation:

First, you must tally every the atoms.

#NH_3# + #O_2# = #NO_2# + #H_2O#

Left side:N = 1H = 3O = 2

Right side:N = 1H = 2O = 2 + 1 (two indigenous the #NO_2# and one from #H_2O# ; DO NOT include IT up YET )

You always have to discover the simplest facet that you have the right to balance (in this case, the H).

Left side:N = 1 x 2 = 2H = 3 x 2 = 6O = 2

Right side:N = 1H = 2 x 3 = 6O = 2 + (1 x 3) indigenous the O in #H_2O#

Notice that through balancing the atoms, you carry out not forget the they are part of a substance - meaning, you need to multiply everything.

#2NH_3# + #O_2# = #NO_2# + #3H_2O#

Now, the N is not well balanced so you have to multiply the right side N through 2.

See more: What Years Are The 5Th Century ? 5Th Century

Left side:N = 1 x 2 = 2H = 3 x 2 = 6O = 2

Right side:N = 1 x 2 = 2H = 2 x 3 = 6O = (2 x 2) + (1 x 3) = 7

#2NH_3# + #O_2# = #2NO_2# + #3H_2O#

Now, the only facet left come be well balanced is O. Due to the fact that 7 is an odd number, you have the right to use a portion for the equation to it is in in its diminished form.

Left side:N = 1 x 2 = 2H = 3 x 2 = 6O = 2 x 3.5 = 7 (the decimal 3.5 have the right to be written as #7/2#)

Right side:N = 1 x 2 = 2H = 2 x 3 = 6O = (2 x 2) + (1 x 3) = 7

Hence,

#2NH_3# + #7/2O_2# = #2NO_2# + #3H_2O#

but if you desire the equation to display whole numbers only, friend can always multiply whatever by the denominator in the fraction.