Nitrogen and hydrogen combine at a high temperature, in the presence of a catalyst, to produce ammonia. N2(g)+3H2(g)⟶2NH3(g) There are four molecules of nitrogen and nine molecules of hydrogen present in the diagram attached. When the reaction is complete, how many molecules of NH3 are
Nitrogen and hydrogen combine at a high temperature, in the presence of a catalyst, to produce ammonia. N2(g)+3H2(g)⟶2NH3(g) There are four molecules of nitrogen and nine molecules of hydrogen present in the diagram attached. When the reaction is complete, how many molecules of NH3 are
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Nitrogen and hydrogen combine at a high temperature, in the presence of a catalyst, to produce ammonia.
N2(g)+3H2(g)⟶2NH3(g)
There are four molecules of nitrogen and nine molecules of hydrogen present in the diagram attached.
When the reaction is complete, how many molecules of NH3 are produced? How many molecules of each reactant are remain after the reaction is complete?
Transcribed Image Text:The image illustrates a mixture of two different types of diatomic molecules. In the diagram, molecules represented by white spheres are interspersed with molecules represented by blue spheres.
- **White Spheres:** These represent one type of diatomic molecule.
- **Blue Spheres:** These represent a different diatomic molecule.
Each molecule consists of two spheres connected together, indicating they are diatomic. The varying colors visually differentiate between the two types of molecules present in the mixture. This setup can model the behavior of gases or solutions where two different substances are mixed but not chemically combined.
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