10A) Using ideal gas equation, PV=nRT where P=pressure of gas V=volume of gas T=

Question

10A)

Using ideal gas equation,

PV=nRT

where P=pressure of gas

V=volume of gas

T=temperature

R=universal gas constant

n=mole of gas

Thus , V=nRT/P=n*constant for P and T constant

So volume is proportional to mol of gas,

If N2 and H2 react in volume ratio of 1:3 then their mol ratio is also same

from the balanced equation ,N2 and H2 react in 1:3 mol ratio to give 2 mol product (ammonia)

or, N2 and H2 react in 1:3 mol ratio/volume ratio to give 2 mol/2 times volume product (ammonia) that is equal to 2*50ml=100ml

Answer :100 ml NH3 produced

Explanation / Answer

. (10A) The reaction of 50 mL of N2 gas with 150 mL of H2 gas to form ammonia via the equation: N2 (g) + 3H2 (g) 2NH3 (g) will produce temperature are kept constant. mL of ammonia ifpressure and C) 200 A) 250 D) 150 B) 100 E) 50 (10A) (IA) The pressure exerted by 1.3 mol of gas in a 13 L flask at 22 °C is kPa. A) 560 B) 18 C) 2.4 D) 250 E) 1.0

Related Questions

Navigate

• Browse (All)
• Browse 1
• Subjects

Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.