3)Nitrogen gas reacts with hydrogen gas to produce ammonia (NH3) gas. How many liters of NH3 can be produced at 0.93 atm and 24 °C from a 16.0-g sample of nitrogen gas and an excess of hydrogen gas? N2(g) + 3H2(g) –2NH3(g)

Chemistry
10th Edition
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Chapter1: Chemical Foundations
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hello I want question from 2 to 4

1) Given the following equations and AH° values
AH° (kJ)
[1] 2 N1e) +Oe) →2 N,0(e)
(2] N,
+ Oe) → 2 NO(3)
N2(e)
[3] N2) + 201e) →2 NO26)
164.1
2(s)
180.5
66.4
Calculate AH° for the reaction below.
N20(g) + NO2) → 3 NO(g)
AH° =?
2) When 100 g of unknown metal at 100 °C added to a
calorimeter containing 50.00 g of water the temperature rises
from 24.00°C to 36.54°C. Calculate the specific heat of the
unknown metal in J/°C. The specific heat of water is 4.184 J/g °C.
3)Nitrogen gas reacts with hydrogen gas to produce ammonia
(NH,) gas. How many liters of NH3 can be produced at 0.93
atm and 24 °C from a 16.0-g sample of nitrogen gas and an
excess of hydrogen gas?
N2(g) + 3H2(g) - 2NH;(g)
4) Convert 100 atm to mbar.
Transcribed Image Text:1) Given the following equations and AH° values AH° (kJ) [1] 2 N1e) +Oe) →2 N,0(e) (2] N, + Oe) → 2 NO(3) N2(e) [3] N2) + 201e) →2 NO26) 164.1 2(s) 180.5 66.4 Calculate AH° for the reaction below. N20(g) + NO2) → 3 NO(g) AH° =? 2) When 100 g of unknown metal at 100 °C added to a calorimeter containing 50.00 g of water the temperature rises from 24.00°C to 36.54°C. Calculate the specific heat of the unknown metal in J/°C. The specific heat of water is 4.184 J/g °C. 3)Nitrogen gas reacts with hydrogen gas to produce ammonia (NH,) gas. How many liters of NH3 can be produced at 0.93 atm and 24 °C from a 16.0-g sample of nitrogen gas and an excess of hydrogen gas? N2(g) + 3H2(g) - 2NH;(g) 4) Convert 100 atm to mbar.
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