Exercise 14.80 The half-life for the first-order decomposition of nitramide, NH2
ID: 945150 • Letter: E
Question
Exercise 14.80
The half-life for the first-order decomposition of nitramide, NH2NO2(aq)N2O(g)+H2O(l), is 123 min at 15C.
Part A
If 170 mL of a 0.105 M NH2NO2 solution is allowed to decompose, how long must the reaction proceed to yield 46.0 mL of N2O(g) collected over water at 15C and a barometric pressure of 756 mmHg ? (The vapor pressure of water at 15C is 12.8 mmHg.)
Express your answer using two significant figures.
Exercise 14.80
The half-life for the first-order decomposition of nitramide, NH2NO2(aq)N2O(g)+H2O(l), is 123 min at 15C.
Part A
If 170 mL of a 0.105 M NH2NO2 solution is allowed to decompose, how long must the reaction proceed to yield 46.0 mL of N2O(g) collected over water at 15C and a barometric pressure of 756 mmHg ? (The vapor pressure of water at 15C is 12.8 mmHg.)
Express your answer using two significant figures.
t = min Please show as much relevant work as possible. Thank youExplanation / Answer
Initial moles of NH2NO2 = molarity x volume in Litres = 0.105 M x 0.17 L = 0.01785 mol
Moles of N2O at 15C and a barometric pressure of 756 mmHg:
Given that 46.0 mL of N2O(g) collected over water at 15C and a barometric pressure of 756 mmHg
Also given that vapor pressure of water at 15C is 12.8 mmHg.
Hence,
Volume of N2O, V = 46 mL = 0.046 L
Pressure of N2O, P = 756 mmHg - vapor pressure of water = 756 mmHg - 12.8 mmHg = 743.2 mmHg
= 743.2/760 atm
= 0.978 atm
temperature T = 15C = 15 +273 K= 288 K
Ideal gas equation , PV = n R T , R = 0.0821 L.atm/mol/K
n = PV/ RT
= (0.978 atm) (0.046 L) / (0.0821 L.atm/mol/K x 288 K )
= 0.002 mol
Therefore, moles of N2O = 0.002 mol
Final moles of NH2NO2:
Final moles of NH2NO2 = Initial moles of NH2NO2 - moles of N2O formed
= 0.01785 mol - 0.002 mol
= 0.01585 mol
Calculation of time:
Given that half life = 123 min
[A]o= 0.01785 mol
[A]t = 0.01585 mol
For first order recation,
half life t1/2 = 0.693 /k where k is rate constant
k = 0.693/ t1/2 --- Eq (1)
k = 1/t ln { [A]o/[A]t} -----Eq (2)
From Eqs (1) and (2),
0.693/ t1/2 = (1/t) ln {[A]o/ [A]t} ------Eq (3)
Substitute all the values in Eq (3),
0.693/ t1/2 = (1/t) ln {[A]o/ [A]t}
0.693/ 123 = (1/t) ln {0.01785/0.01585}
t = 21.1 min
Related Questions
drjack9650@gmail.com
Navigate
Integrity-first tutoring: explanations and feedback only — we do not complete graded work. Learn more.