Wiki User
∙ 7y agoTwo molecules of ammonia contain 6 hydrogen atoms.
Wiki User
∙ 7y agoOxygen, hydrogen , nitrogen atoms etc. are not molecules .
These molecules are similar.
Carbon, hydrogen, nitrogen and oxygen
In the Haber process, nitrogen gas and hydrogen gas react to form ammonia gas. You can draw a particle diagram by representing nitrogen molecules (N2) as pairs of N atoms, hydrogen molecules (H2) as pairs of H atoms, and ammonia molecules (NH3) as a combination of N and H atoms. Show the collisions between nitrogen and hydrogen molecules and the formation of ammonia molecules.
Hydrogen bonds occur between polar molecules when hydrogen is linked to nitrogen, phosphorous or fluorine.
Hydrogen bonding occurs in molecules where hydrogen is bonded to the elements fluorine, oxygen, or nitrogen.
Oxygen, hydrogen , nitrogen atoms etc. are not 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.
These molecules are similar.
Three molecules of hydrogen will combine exactly with one molecule of nitrogen to form two molecules of ammonia (NH3) in a balanced chemical reaction.
The balanced equation for the reaction is: 3H2 + N2 -> 2NH3 From the balanced equation, we can see that 3 moles of hydrogen are needed to react completely with 1 mole of nitrogen. So if there are 3 moles of nitrogen, you would need 9 moles of hydrogen to react completely.
It depends completely upon which compound it is. Some have more Hydrogen bonds than others, and hydrogen can only bond to certain elements, such as Nitrogen and Oxygen, to make a hydrogen bond.
Yes
The balanced equation for this reaction is: N2 + 3H2 -> 2NH3. During the reaction, one nitrogen molecule (N2) reacts with three hydrogen molecules (H2) to produce two ammonia molecules (NH3), each containing one nitrogen and three hydrogen atoms.
oxyen hydrogen carbon and nitrogen
Hydrogen molecules are very light and have high velocities, which allows them to reach escape velocity and escape Earth's gravitational pull. On the other hand, oxygen and nitrogen molecules are heavier and have lower velocities, so they are more likely to be retained by Earth's gravity and stay within the atmosphere. Additionally, the interactions and composition of Earth's atmosphere play a role in retaining oxygen and nitrogen compared to hydrogen.
In a propylamine molecule, the maximum number of hydrogen bonds that can form is one. This is because the nitrogen atom can form one hydrogen bond due to the lone pair of electrons on the nitrogen. In propylamine molecules interacting with each other, the nitrogen atom can potentially form hydrogen bonds with up to two hydrogen atoms on neighboring molecules, resulting in a maximum of two hydrogen bonds between propylamine molecules.