Chemistry, 26.04.2021 06:40 zulaykaalex
The Haber Process involves nitrogen gas combining with hydrogen gas to produce ammonia. If 11.0 grams of nitrogen gas combines with 2.0 grams of hydrogen gas, find the following: the molar mass of reactants and products, the limiting reactant, the excess reactant, the amount of ammonia produced, the amount of excess chemical not used in the reaction. nitrogen gas + hydrogen gas โ ammonia gas N2 + H2 -> NH3 (Make sure to balance the chemical equation first)
28.014 grams/mole
17.031 grams/mole
1.736 grams
11.26 grams
Nitrogen Gas
2.012 grams/mole
Hydrogen Gas
1.
The excess reactant (reagent).
2.
The limiting reactant (reagent).
3.
The amount of excess reagent not used in the reaction.
4.
The molar mass of hydrogen.
5.
The molar mass of ammonia.
6.
The molar mass of nitrogen gas.
7.
The amount of product produced.
(Fill in blank)
Answers: 1
Chemistry, 22.06.2019 05:50
In an exothermic reaction the bonding energy of the product is: less than the reactants same as the reactants greater than the reactants dependent upon the presence of a catalyst
Answers: 1
Chemistry, 23.06.2019 01:30
Which is an example of a highly unstable isotope that is often used in fission reactions?
Answers: 1
Chemistry, 23.06.2019 05:00
1. true or false: minerals are inorganic. true false 2. inorganic means that something has never been found alive 3. halite is another name for and is a mineral with a cubic crystal pattern. table salt rock salt
Answers: 2
The Haber Process involves nitrogen gas combining with hydrogen gas to produce ammonia. If 11.0 gram...
Biology, 04.11.2021 19:40
Mathematics, 04.11.2021 19:40
Biology, 04.11.2021 19:40
Mathematics, 04.11.2021 19:40
Mathematics, 04.11.2021 19:40
English, 04.11.2021 19:40
Advanced Placement (AP), 04.11.2021 19:40