Solutions to p 21
1. P1V1/(n1T1) = P2V2/(n2T2), but volume is constant so
P1/(n1T1) = P2/(n2T2),
302/(1.0*-21+273) = 320/(0.98T2)
T2 = 272.469 K = -0.53 oC
2. mass of gas = 32.4 - 32.0 = 0.4 g
PV = nRT
221.3(0.100 L) = n(8.31)(20.0 + 273)
n = .00909 moles
molar mass = m/n = 0.4 / .00909 moles = 44.0 g/mole; so yes it is possible that CO2 was the gas, but keep in mind that it is not the only compound in the universe with such a molar mass. For example C3H8 gas is also 44g/mole.
3. The volume of a metal cylinder will remain constant. n will change.
P2V = n2RT2
n2 = P2V/RT2 = 402(3400)/(8.31*[18+273])
=565.2 moles
P1V = n1RT1
n1 = PV1/RT1= 452(3400)/( 8.31*[23+273])
= 624.7764009 moles
Dn = 624.78- 565.2 = 59.58 moles = 59.58 moles *32g/mole =1906 g lost or 1.91 kg
4. 1.00g/(17 g/mole) = 0.0588 moles of NH3
ratio of water to NH3 is 6/4, so 0.0588 moles *6/4 = 0.088 moles of water
PV = nRT
V = nRT/P = 0.088(8.31)(100+273)/ 180 = 1.51 L
5. n = PV/RT = 100*20/(8.31*(10.0 +273)) = 0.850 moles of hydrogen.
Since the ratio of hydrogen to water is 1: 1, then 0.850 moles of water will form = 15.3 g.
6. 78% = 0.78 (100) = 78 L
n = PV/RT = 99(78)/(8.31*(20.3+273)) = 3.17 moles = 3.17*28 = 88.7 g
7. PV = nRT
n/V = P/RT = 200/(8.31*(28+273) = 0.080 moles/L
0.080 moles/L *(1L / 1000ml) (38 g/mole) = 0.0030 g/ml
8. 71g of Cl2 = 1.0 mole
But if every molecule gets dissociated into two atoms, you will have twice as many moles of atoms:
Cl2--> 2Cl
P = nRT/V = 2.0 (8.31)(25+273)/3.0 = 1651 kPa or 1.7 X 103 kPa
9. P1V1/(n1T1) = P2V2/(n2T2)
V2 = 0.20V1
T2 = 5/6T1
n2 = 0.90n1
P1V1/(n1T1) = P2(0.20V1)/ (0.90n1)( 5/6T1)
P1 = 0.20P2 / [(5/6)*0.90]
P2 = 3.75 P1
Pressure has increased by a factor of 3.75
