Write the balanced equation for the following situation. List the reaction type. Tell the amounts of every substance that remains in the container at the end of the reaction. Assume that all reactions go to completion. If only stoichiometry, tell how much of the excess reactant is used!!!! Reaction Type: a. Combination Reaction b. Decomposition Reaction c. Single Displacement / THIS IS ONE TYPE OF Oxidation Reduction Reaction d. Precipitation Reaction e. Gaseous Reaction f. Neutralization Reaction g. Combustion Reaction Follow the format used in the image. 1.325 cg strip lithium reacts with 13.25 mg of magnesium nitrate

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Write the balanced equation for the following situation. List the reaction type. Tell the amounts of every
substance that remains in the container at the end of the reaction. Assume that all reactions go to completion.
If only stoichiometry, tell how much of the excess reactant is used!!!! Reaction Type: a. Combination Reaction
b. Decomposition Reaction c. Single Displacement / THIS IS ONE TYPE OF Oxidation Reduction Reaction d.
Precipitation Reaction e. Gaseous Reaction f. Neutralization Reaction g. Combustion Reaction
Follow the format used in the image.
1.325 cg strip lithium reacts with 13.25 mg of magnesium nitrate
2. N₂ (g) + 3H₂(g) → 2 NH3(g) (This is LIMITING REACTANT: N₂ is the Limiting Reactant)
Grams of Product (List the Product and the Amount): 0.75168 g NH3
Reaction Type: Combination or Single Displacement (which is also called Oxidation-Reduction)
? g NH3 = 61.802 cg N2 x 1g N₂
LR
1 x 10² cg N₂
? g NH3 = 61.802 cg H₂ x 1g H₂
1 x 10² g H₂
x
1 x 10² cg N₂
X
1 mol N₂ x
28.02 g N₂
1 mol H₂ x
2.02 g H₂
How much N₂ remains in the vessel?
You will use the LIMITING REACTANT and determine how much H₂ was USED in the RXN.
? g H₂ USED= 61.802 cg N₂ x 1g N₂
2 mol NH3 x 17.04 g NH3 = 0.75168 g NH3 ******* THEORETICAL YIELD
1 mol N₂ 1 mol NH3
Amount of H₂ Remaining in the Container = H₂ amount given
2 mol NH3 x 17.04 g NH3 = 3.3756 g NH3
3 mol H₂ 1 mol NH3
x 1 mol N₂ x 3 mol H₂ x 2.02 g H₂= 0.13366 g H₂
28.02 g N₂ 1 mol N₂ 1 mol H₂
-
H₂ amount USED=0.61802 g H₂ GIVEN 0.13366 g H₂ USED
= 0.48436 g of H₂--LEFT OVER = EXCESS
Transcribed Image Text:Write the balanced equation for the following situation. List the reaction type. Tell the amounts of every substance that remains in the container at the end of the reaction. Assume that all reactions go to completion. If only stoichiometry, tell how much of the excess reactant is used!!!! Reaction Type: a. Combination Reaction b. Decomposition Reaction c. Single Displacement / THIS IS ONE TYPE OF Oxidation Reduction Reaction d. Precipitation Reaction e. Gaseous Reaction f. Neutralization Reaction g. Combustion Reaction Follow the format used in the image. 1.325 cg strip lithium reacts with 13.25 mg of magnesium nitrate 2. N₂ (g) + 3H₂(g) → 2 NH3(g) (This is LIMITING REACTANT: N₂ is the Limiting Reactant) Grams of Product (List the Product and the Amount): 0.75168 g NH3 Reaction Type: Combination or Single Displacement (which is also called Oxidation-Reduction) ? g NH3 = 61.802 cg N2 x 1g N₂ LR 1 x 10² cg N₂ ? g NH3 = 61.802 cg H₂ x 1g H₂ 1 x 10² g H₂ x 1 x 10² cg N₂ X 1 mol N₂ x 28.02 g N₂ 1 mol H₂ x 2.02 g H₂ How much N₂ remains in the vessel? You will use the LIMITING REACTANT and determine how much H₂ was USED in the RXN. ? g H₂ USED= 61.802 cg N₂ x 1g N₂ 2 mol NH3 x 17.04 g NH3 = 0.75168 g NH3 ******* THEORETICAL YIELD 1 mol N₂ 1 mol NH3 Amount of H₂ Remaining in the Container = H₂ amount given 2 mol NH3 x 17.04 g NH3 = 3.3756 g NH3 3 mol H₂ 1 mol NH3 x 1 mol N₂ x 3 mol H₂ x 2.02 g H₂= 0.13366 g H₂ 28.02 g N₂ 1 mol N₂ 1 mol H₂ - H₂ amount USED=0.61802 g H₂ GIVEN 0.13366 g H₂ USED = 0.48436 g of H₂--LEFT OVER = EXCESS
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