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Page 1 1. (a) From the graph we can see the correct order of pressures p 1 > p 3 > p 2 2. (b) Gases become cooler during Joule Thomson’s expansion only if they are below a certain temperature known as inversion temperature (T i ). The inversion temperature is characteristic of each gas and is given by , where R is gas constant Given a = 0.244 atm L 2 mol –2 b = 0.027 L mol –1 R = 0.0821 L atm deg –1 mol –1 ? 3. (d) 4. (d) Let the mass of methane and oxygen = m gm. Mole fraction of O 2 = = = = Partial pressure of O 2 = Total pressure × mole fraction of O 2 , = P × = 5. (c) The expression of root mean square speed is Hence, Page 2 1. (a) From the graph we can see the correct order of pressures p 1 > p 3 > p 2 2. (b) Gases become cooler during Joule Thomson’s expansion only if they are below a certain temperature known as inversion temperature (T i ). The inversion temperature is characteristic of each gas and is given by , where R is gas constant Given a = 0.244 atm L 2 mol –2 b = 0.027 L mol –1 R = 0.0821 L atm deg –1 mol –1 ? 3. (d) 4. (d) Let the mass of methane and oxygen = m gm. Mole fraction of O 2 = = = = Partial pressure of O 2 = Total pressure × mole fraction of O 2 , = P × = 5. (c) The expression of root mean square speed is Hence, 6. (a) Given T = 27°C = 27 + 273 = 300 K V = 10.0 L Mass of He = 0.4 g Mass of oxygen = 1.6 g Mass of nitrogen = 1.4 g n He = 0.4/4 = 0.1 n O 2 = 1.6/32 = 0.05 n N 2 = 1.4/28 = 0.05 n total = n He + n O 2 + n N 2 = 0.1 + 0.05 + 0.05 = 0.2 P = atm 7. (b) Rate of diffusion ? Molecular mass of HCl > Molecular mass of NH 3 HCl diffuses at slower rate and white ammonium chloride is first formed near HCl bottle. 8. (b) Mean molar mass = = 9. (a) Page 3 1. (a) From the graph we can see the correct order of pressures p 1 > p 3 > p 2 2. (b) Gases become cooler during Joule Thomson’s expansion only if they are below a certain temperature known as inversion temperature (T i ). The inversion temperature is characteristic of each gas and is given by , where R is gas constant Given a = 0.244 atm L 2 mol –2 b = 0.027 L mol –1 R = 0.0821 L atm deg –1 mol –1 ? 3. (d) 4. (d) Let the mass of methane and oxygen = m gm. Mole fraction of O 2 = = = = Partial pressure of O 2 = Total pressure × mole fraction of O 2 , = P × = 5. (c) The expression of root mean square speed is Hence, 6. (a) Given T = 27°C = 27 + 273 = 300 K V = 10.0 L Mass of He = 0.4 g Mass of oxygen = 1.6 g Mass of nitrogen = 1.4 g n He = 0.4/4 = 0.1 n O 2 = 1.6/32 = 0.05 n N 2 = 1.4/28 = 0.05 n total = n He + n O 2 + n N 2 = 0.1 + 0.05 + 0.05 = 0.2 P = atm 7. (b) Rate of diffusion ? Molecular mass of HCl > Molecular mass of NH 3 HCl diffuses at slower rate and white ammonium chloride is first formed near HCl bottle. 8. (b) Mean molar mass = = 9. (a) 10. (c) According to Avogadro’s law "At same temperature and pressure, Volume ? no. of moles" = Q = = = 16 : 1 : 2 11. (a) Given, According to Graham's law of diffusion for two different gases. ? x = 8 ? Fraction of O 2 = 1/8 12. (c) As temperature rises the most probable speed increases and the fraction of molecules possessing most probable speed decreases. 13. (b) According to Boyle's law, PV = constant ? log P + log V = constant log P = – log V + constant Hence, the plot of log P vs log V is straight line with negative slope. 14. (a) Stoichoimetry ratio is 1 : 2 AT STP, P = 1 atm, T = 273 K, R = 0.0821 Page 4 1. (a) From the graph we can see the correct order of pressures p 1 > p 3 > p 2 2. (b) Gases become cooler during Joule Thomson’s expansion only if they are below a certain temperature known as inversion temperature (T i ). The inversion temperature is characteristic of each gas and is given by , where R is gas constant Given a = 0.244 atm L 2 mol –2 b = 0.027 L mol –1 R = 0.0821 L atm deg –1 mol –1 ? 3. (d) 4. (d) Let the mass of methane and oxygen = m gm. Mole fraction of O 2 = = = = Partial pressure of O 2 = Total pressure × mole fraction of O 2 , = P × = 5. (c) The expression of root mean square speed is Hence, 6. (a) Given T = 27°C = 27 + 273 = 300 K V = 10.0 L Mass of He = 0.4 g Mass of oxygen = 1.6 g Mass of nitrogen = 1.4 g n He = 0.4/4 = 0.1 n O 2 = 1.6/32 = 0.05 n N 2 = 1.4/28 = 0.05 n total = n He + n O 2 + n N 2 = 0.1 + 0.05 + 0.05 = 0.2 P = atm 7. (b) Rate of diffusion ? Molecular mass of HCl > Molecular mass of NH 3 HCl diffuses at slower rate and white ammonium chloride is first formed near HCl bottle. 8. (b) Mean molar mass = = 9. (a) 10. (c) According to Avogadro’s law "At same temperature and pressure, Volume ? no. of moles" = Q = = = 16 : 1 : 2 11. (a) Given, According to Graham's law of diffusion for two different gases. ? x = 8 ? Fraction of O 2 = 1/8 12. (c) As temperature rises the most probable speed increases and the fraction of molecules possessing most probable speed decreases. 13. (b) According to Boyle's law, PV = constant ? log P + log V = constant log P = – log V + constant Hence, the plot of log P vs log V is straight line with negative slope. 14. (a) Stoichoimetry ratio is 1 : 2 AT STP, P = 1 atm, T = 273 K, R = 0.0821 Initial moles of CO 2; n(CO 2 initial) = 0.022 mole In final mixture no. of moles; n(CO 2 /CO mixture) Increase in volume is by = 0.031 – 0.022 = 0.009 mole of gas Final no. of moles of CO i.e. n (CO final) n (CO final) = 2n (CO2 initial) – n (CO2 final) = 2(0.022 – n (CO2 final) ...(i) n (CO final) = 0.044 – 2n (CO2 final) ...(ii) ? Now, n (CO final) + n (CO final) = 0.031 n (CO2 final) = 0.031 – n (CO final) ...(ii) Substituting (ii) in eq. (i) n (CO final) = 0.044 – 2[0.031 – n (CO final)] n (CO final) = 0.044 – 0.062 + 2n (CO final) n (CO final) = 0.018 mol. Volume of = 0.40 Litre and volume of CO 2 = 0.7 litre – 0.4 litre = 0.3 litre ? CO 2 = 300 mL, CO = 400 mL 15. (c) Most probable speed (C*) = Average Speed Page 5 1. (a) From the graph we can see the correct order of pressures p 1 > p 3 > p 2 2. (b) Gases become cooler during Joule Thomson’s expansion only if they are below a certain temperature known as inversion temperature (T i ). The inversion temperature is characteristic of each gas and is given by , where R is gas constant Given a = 0.244 atm L 2 mol –2 b = 0.027 L mol –1 R = 0.0821 L atm deg –1 mol –1 ? 3. (d) 4. (d) Let the mass of methane and oxygen = m gm. Mole fraction of O 2 = = = = Partial pressure of O 2 = Total pressure × mole fraction of O 2 , = P × = 5. (c) The expression of root mean square speed is Hence, 6. (a) Given T = 27°C = 27 + 273 = 300 K V = 10.0 L Mass of He = 0.4 g Mass of oxygen = 1.6 g Mass of nitrogen = 1.4 g n He = 0.4/4 = 0.1 n O 2 = 1.6/32 = 0.05 n N 2 = 1.4/28 = 0.05 n total = n He + n O 2 + n N 2 = 0.1 + 0.05 + 0.05 = 0.2 P = atm 7. (b) Rate of diffusion ? Molecular mass of HCl > Molecular mass of NH 3 HCl diffuses at slower rate and white ammonium chloride is first formed near HCl bottle. 8. (b) Mean molar mass = = 9. (a) 10. (c) According to Avogadro’s law "At same temperature and pressure, Volume ? no. of moles" = Q = = = 16 : 1 : 2 11. (a) Given, According to Graham's law of diffusion for two different gases. ? x = 8 ? Fraction of O 2 = 1/8 12. (c) As temperature rises the most probable speed increases and the fraction of molecules possessing most probable speed decreases. 13. (b) According to Boyle's law, PV = constant ? log P + log V = constant log P = – log V + constant Hence, the plot of log P vs log V is straight line with negative slope. 14. (a) Stoichoimetry ratio is 1 : 2 AT STP, P = 1 atm, T = 273 K, R = 0.0821 Initial moles of CO 2; n(CO 2 initial) = 0.022 mole In final mixture no. of moles; n(CO 2 /CO mixture) Increase in volume is by = 0.031 – 0.022 = 0.009 mole of gas Final no. of moles of CO i.e. n (CO final) n (CO final) = 2n (CO2 initial) – n (CO2 final) = 2(0.022 – n (CO2 final) ...(i) n (CO final) = 0.044 – 2n (CO2 final) ...(ii) ? Now, n (CO final) + n (CO final) = 0.031 n (CO2 final) = 0.031 – n (CO final) ...(ii) Substituting (ii) in eq. (i) n (CO final) = 0.044 – 2[0.031 – n (CO final)] n (CO final) = 0.044 – 0.062 + 2n (CO final) n (CO final) = 0.018 mol. Volume of = 0.40 Litre and volume of CO 2 = 0.7 litre – 0.4 litre = 0.3 litre ? CO 2 = 300 mL, CO = 400 mL 15. (c) Most probable speed (C*) = Average Speed Root mean square velocity (C) = 16. (b) According to Graham’s Law Diffusion: Since rate of diffusion = ? or = = Mol. wt = 2 × V.D ? On calculating, V 2 = 14.1 17. (b) Compressibility factor (For one mole of real gas) van der Waals equation At low pressure, volume is very large and hence correction term b can be neglected in comparison to very large volume of V. i.e.Read More
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