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How many hydrogen atoms does 2nh3 make?
2NH3 molecules contain a total of 6 hydrogen atoms. This is because each NH3 molecule has 3 hydrogen atoms, and there are 2 NH3 molecules in the given compound.
What are the products of the chemical reaction N2 plus 3H2?
2NH3 is the product of N2+3H2
2NA plus 2NH3 gives wat?
2NH3 + 2NA = 3H2 + NA3N2
How many molecules not moles of NH3 are produced from 6.96104g of H2?
Firstly, the reaction equation: 3H2 + N2 => 2NH3 Next, you calculate moles of H2 (Divide by 2.01588) gives you 3.4531023672044 moles reactant. You now have to divide by 3 and multiply by 2 as per the stochiometry. This gives 2.3020682448 moles. Now this multiplied by avagadros number (6.022x10^23) is 1.3863055x10^24 molecules NH3.
How do you balance this equation N2 plus H2 to NH3 plus N2?
The formula for the synthesis of ammonia from diatomic nitrogen and hydrogen is: N2+3H2-->2NH3
How many hydrogen atoms does 2nh3 make?
2NH3 molecules contain a total of 6 hydrogen atoms. This is because each NH3 molecule has 3 hydrogen atoms, and there are 2 NH3 molecules in the given compound.
What does the 2 in 2NH3 mean?
The coefficient (in this case a 2) indicates the number of moles or molecules of the compound. So, 2NH3 means there are 2 moles or 2 molecules of ammonia (NH3).
What does the big 2 in 2NH3 mean?
The coefficient (in this case a 2) indicates the number of moles or molecules of the compound. So, 2NH3 means there are 2 moles or 2 molecules of ammonia (NH3).
How many nitrogen atoms are in 2NH3?
There are 2 nitrogen atoms in 2NH3.
What are the products of the chemical reaction N2 plus 3H2?
2NH3 is the product of N2+3H2
How many atoms of hydrogen are in 2NH3?
1 mole NH3 (3 mole H/1 mole NH3) = 3 mole hydrogen atoms
How many molecules of ammonia can be formed from the reaction of 2 molecules of Nitrogen gas and 6 molecules of hydrogen gas?
By balancing the chemical equation for the formation of ammonia (NH3) from nitrogen gas (N2) and hydrogen gas (H2), we have: N2 + 3H2 → 2NH3 This means that for every 1 molecule of N2 and 3 molecules of H2, we get 2 molecules of NH3. Therefore, from 2 molecules of N2 and 6 molecules of H2, we can form 4 molecules of NH3.
How many hydrogen molecules are required to react with 150 nitrogen molecules?
If we have 150 nitrogen molecules, we would need an equal number of hydrogen molecules to react with them according to the balanced reaction equation for the formation of ammonia: N2 + 3H2 → 2NH3 Therefore, we would need 150 hydrogen molecules to react with 150 nitrogen molecules.
What is the balanced equation describing the reaction between hydrogen gas and nitrogen gas to produce ammonia NH3?
3H2 + N2 --> 2NH3 Since Hydrogen (H) and Nitrogen (N) both appear in nature diatomically they only appear as H2 and N2. We must add 3 molecules of Hydrogen and 1 molecule of Nitrogen to get 2 molecules of ammonia. We cannot, in nature, have half of a diatomic Hydrogen or Nitrogen atom, for that reason the equation must yield 2 molecules of Ammonia.
What is the product of 2NH3?
The product of 2NH3, or two molecules of ammonia, is simply 2NH3 itself. Ammonia (NH3) is a compound consisting of one nitrogen atom and three hydrogen atoms. In chemical reactions, ammonia can participate in various reactions, but in this context, the expression refers to the quantity of ammonia rather than a transformation into different products.
What does the little 3 mean in 2NH3?
Coefficient-Determines the number of molecules
How many molecules of H2 are required to completely react with six molecules of N2?
The chemical reaction is:N2 + 3 H2 = 2 NH3For six molecules of nitrogen N2 18 molecules of hydrogen H2 are needed.
