In the important industrial process for producing ammonia (the Haber Process), the overall reaction is:. N2(g) + 3H2(g) → 2NH3(g) + 100.4 kJ. A yield of NH3 of approximately 98% can be obtained at 200°C and 1,000 atmospheres of pressure. How many grams of N2 must react to form 1.7 grams of ammonia, NH3? A) 0.51 g. B)1.0 g. C) 1.4 g. D) 2.8 g

We are given with the equation that produces ammonia from the reaction of hydrogen gas and nitrogen gas. This is expressed in the balanced equation: N2+ 3H2 = 2NH3. We convert the given mass to moles of ammonia and multiply with the stoichiometric ratio of 1/2, further with the molar mass and the efficiency of the process. The N2 needed is 1.372 grams or C. 1.4 grams

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BarrettArcher BarrettArcher · Answer 2 · 2018-12-13T13:07:14+01:00

Answer : The correct option is, (C) 1.4 g

Solution : Given,

Mass of ammonia = 1.7 g

Molar mass of ammonia = 17 g/mole

Molar mass of nitrogen = 28 g/mole

First we have to calculate the moles of ammonia gas.

[tex]\text{ Moles of }NH_3=\frac{\text{ Mass of }NH_3}{\text{ Molar mass of }NH_3}=\frac{1.7g}{17g/mole}=0.1moles[/tex]

The given balanced reaction is,

[tex]N_2(g)+3H_2(g)\rightarrow 2NH_3(g)[/tex]

From the reaction, we conclude that

As, 2 moles of ammonia produced from 1 mole of nitrogen

So, 0.1 moles of ammonia produced from [tex]\frac{1mole}{2mole}\times 0.1mole=0.05[/tex] moles of nitrogen

The moles of nitrogen = 0.05 moles

Now we have to calculate the mass of nitrogen.

[tex]\text{ Mass of nitrogen}=\text{ Moles of nitrogen}\times \text{ Molar mass of nitrogen}[/tex]

[tex]\text{ Mass of nitrogen}=(0.05moles)\times (28g/mole)=1.4g[/tex]

Therefore, the mass of nitrogen must be react is, 1.4 g.