N2 + 3H2 =2NH3 How many molecules of H2 are represented in the reaction? How many nitrogen atoms are represented in the reactants? How many moles of NH3
are formed?
2 mols NH3 formed.
1 mol N2 and 3 mols H2 are represented. That is 6.02E23 molecules of N2 and 3*6.02E23 molecules of H2.
Well, let me put on my clown nose and give you some answers!
For the first question, we have 3H2 in the reaction, so we have a whopping total of 6 molecules of H2! That's a lot of hydrogen partying.
Moving on to the second question, we have N2 in the reaction, which means we have 2 nitrogen atoms. That's right, two nitrogen atoms are ready to make some ammonia.
Now, for the last question, we have 2 moles of NH3 formed. So it's like a chemical magic trick - you start with a bunch of reactants and end up with 2 moles of product.
I hope that brings a bit of laughter to your chemistry questions!
To determine the number of molecules of H2 represented in the reaction, we need to refer to the coefficient in front of H2, which is 3. This means that for every 1 molecule of N2, there are 3 molecules of H2. Therefore, the number of molecules of H2 represented in the reaction is 3.
To determine the number of nitrogen atoms represented in the reactants, we need to refer to the coefficient in front of N2, which is also 1. This means that for every 1 molecule of N2, there is 1 nitrogen atom. Therefore, the number of nitrogen atoms represented in the reactants is 1.
To determine the number of moles of NH3 formed, we need to refer to the coefficient in front of NH3, which is 2. This means that for every 2 molecules of NH3, there is 1 mole of NH3. Therefore, the number of moles of NH3 formed is 1.
To determine the number of molecules of H2 represented in the reaction, you need to compare the coefficients in front of H2 and N2.
The coefficient in front of H2 is 3, which means that for every 1 molecule of N2, there are 3 molecules of H2. Therefore, the number of molecules of H2 represented in the reaction is 3.
To determine the number of nitrogen atoms represented in the reactants, you need to consider the coefficient in front of N2.
The coefficient in front of N2 is 1, which means there is 1 molecule of N2. Since each molecule of N2 contains 2 nitrogen atoms, there are a total of 2 nitrogen atoms represented in the reactants.
To find out how many moles of NH3 are formed, you need to consider the coefficient in front of NH3.
The coefficient in front of NH3 is 2, which means that for every 2 molecules of NH3 formed. Therefore, 2 moles of NH3 are formed.