Consider the Haber-Bosch process for the synthesis of ammonia from its elements. Calculate the theoretical yield in moles NH from the complete reaction of 15.6 grams H in the presence of excess N, gas according to the following balanced chemical equation: N(g) + 3 H,(g)→ 2 NH,(g)

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Chapter1: Chemical Foundations
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Consider the Haber-Bosch process for the synthesis of ammonia from its elements.
Calculate the theoretical yield in moles NH, from the complete reaction of 15.6
grams H, in the presence of excess N, gas according to the following balanced
chemical equation:
H,(g) –
2 NH,(g)
N,(g) +
3
STARTING AMOUNT
ANSWER
RESET
ADD FACTOR
*( )
%3D
2.57
1
2
2.02
28.02
197
0.918
0.306
11.6
7.72
14.01
3.
5.15
17.04
87.7
15.6
10.3
0.612
1.01
mol H2
g NH,
mol NH,
g/mol H,
g/mol NH,
g H,
2,
3.
Transcribed Image Text:Consider the Haber-Bosch process for the synthesis of ammonia from its elements. Calculate the theoretical yield in moles NH, from the complete reaction of 15.6 grams H, in the presence of excess N, gas according to the following balanced chemical equation: H,(g) – 2 NH,(g) N,(g) + 3 STARTING AMOUNT ANSWER RESET ADD FACTOR *( ) %3D 2.57 1 2 2.02 28.02 197 0.918 0.306 11.6 7.72 14.01 3. 5.15 17.04 87.7 15.6 10.3 0.612 1.01 mol H2 g NH, mol NH, g/mol H, g/mol NH, g H, 2, 3.
Calculate the theoretical yield in grams All, from the complete reaction of 18.3
3.
grams Al, aluminum iodide, according to the following balanced chemical equation:
2 Al(s) +
1,(s)→
2 All,(s)
STARTING AMOUNT
ADD FACTOR
ANSWER
RESET
*( )
2
407.7
18.3
3
1.47
26.98
153.9
0.678
1
277
138
mol Al
g/mol All,
mol All,
g Al
g All
g/mol Al
3
3
Transcribed Image Text:Calculate the theoretical yield in grams All, from the complete reaction of 18.3 3. grams Al, aluminum iodide, according to the following balanced chemical equation: 2 Al(s) + 1,(s)→ 2 All,(s) STARTING AMOUNT ADD FACTOR ANSWER RESET *( ) 2 407.7 18.3 3 1.47 26.98 153.9 0.678 1 277 138 mol Al g/mol All, mol All, g Al g All g/mol Al 3 3
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