314159 The density of a gas is \(\mathrm{2.5 \mathrm{~g} / \mathrm{L}}\) at \(\mathrm{127^{\circ} \mathrm{C}}\) and 1 atm. The molecular weight of the gas is

314160 One mole of argon will have least density at

314161 Density of carbon monoxide is maximum at

314162 The density of a gas is \(\mathrm{1.964 \mathrm{~g} \mathrm{dm}^{-3}}\) at \(\mathrm{273 \mathrm{~K}}\) and \(\mathrm{760 \mathrm{~cm}}\) of \(\mathrm{\mathrm{Hg}}\). The gas is
\(\left( {{\rm{R = 0}}{\rm{.0821d}}{{\rm{m}}^{\rm{3}}}{\rm{atm}}\,{\rm{mo}}{{\rm{l}}^{{\rm{ - 1}}}}{\rm{\;}}{{\rm{K}}^{{\rm{ - 1}}}}} \right)\)

314163 Assuming ideal gas behaviour, the ratio of density of ammonia to that of hydrogen chloride at same temperature and pressure is : (Atomic wt. of \({\rm{Cl}}\,\,{\rm{is}}\,\,{\rm{35}}{\rm{.5u}}\))

314159 The density of a gas is \(\mathrm{2.5 \mathrm{~g} / \mathrm{L}}\) at \(\mathrm{127^{\circ} \mathrm{C}}\) and 1 atm. The molecular weight of the gas is

314160 One mole of argon will have least density at

314161 Density of carbon monoxide is maximum at

314162 The density of a gas is \(\mathrm{1.964 \mathrm{~g} \mathrm{dm}^{-3}}\) at \(\mathrm{273 \mathrm{~K}}\) and \(\mathrm{760 \mathrm{~cm}}\) of \(\mathrm{\mathrm{Hg}}\). The gas is
\(\left( {{\rm{R = 0}}{\rm{.0821d}}{{\rm{m}}^{\rm{3}}}{\rm{atm}}\,{\rm{mo}}{{\rm{l}}^{{\rm{ - 1}}}}{\rm{\;}}{{\rm{K}}^{{\rm{ - 1}}}}} \right)\)

314163 Assuming ideal gas behaviour, the ratio of density of ammonia to that of hydrogen chloride at same temperature and pressure is : (Atomic wt. of \({\rm{Cl}}\,\,{\rm{is}}\,\,{\rm{35}}{\rm{.5u}}\))

314159 The density of a gas is \(\mathrm{2.5 \mathrm{~g} / \mathrm{L}}\) at \(\mathrm{127^{\circ} \mathrm{C}}\) and 1 atm. The molecular weight of the gas is

314160 One mole of argon will have least density at

314161 Density of carbon monoxide is maximum at

314162 The density of a gas is \(\mathrm{1.964 \mathrm{~g} \mathrm{dm}^{-3}}\) at \(\mathrm{273 \mathrm{~K}}\) and \(\mathrm{760 \mathrm{~cm}}\) of \(\mathrm{\mathrm{Hg}}\). The gas is
\(\left( {{\rm{R = 0}}{\rm{.0821d}}{{\rm{m}}^{\rm{3}}}{\rm{atm}}\,{\rm{mo}}{{\rm{l}}^{{\rm{ - 1}}}}{\rm{\;}}{{\rm{K}}^{{\rm{ - 1}}}}} \right)\)

314163 Assuming ideal gas behaviour, the ratio of density of ammonia to that of hydrogen chloride at same temperature and pressure is : (Atomic wt. of \({\rm{Cl}}\,\,{\rm{is}}\,\,{\rm{35}}{\rm{.5u}}\))

314159 The density of a gas is \(\mathrm{2.5 \mathrm{~g} / \mathrm{L}}\) at \(\mathrm{127^{\circ} \mathrm{C}}\) and 1 atm. The molecular weight of the gas is

314160 One mole of argon will have least density at

314161 Density of carbon monoxide is maximum at

314162 The density of a gas is \(\mathrm{1.964 \mathrm{~g} \mathrm{dm}^{-3}}\) at \(\mathrm{273 \mathrm{~K}}\) and \(\mathrm{760 \mathrm{~cm}}\) of \(\mathrm{\mathrm{Hg}}\). The gas is
\(\left( {{\rm{R = 0}}{\rm{.0821d}}{{\rm{m}}^{\rm{3}}}{\rm{atm}}\,{\rm{mo}}{{\rm{l}}^{{\rm{ - 1}}}}{\rm{\;}}{{\rm{K}}^{{\rm{ - 1}}}}} \right)\)

314163 Assuming ideal gas behaviour, the ratio of density of ammonia to that of hydrogen chloride at same temperature and pressure is : (Atomic wt. of \({\rm{Cl}}\,\,{\rm{is}}\,\,{\rm{35}}{\rm{.5u}}\))

314159 The density of a gas is \(\mathrm{2.5 \mathrm{~g} / \mathrm{L}}\) at \(\mathrm{127^{\circ} \mathrm{C}}\) and 1 atm. The molecular weight of the gas is

314160 One mole of argon will have least density at

314161 Density of carbon monoxide is maximum at

314162 The density of a gas is \(\mathrm{1.964 \mathrm{~g} \mathrm{dm}^{-3}}\) at \(\mathrm{273 \mathrm{~K}}\) and \(\mathrm{760 \mathrm{~cm}}\) of \(\mathrm{\mathrm{Hg}}\). The gas is
\(\left( {{\rm{R = 0}}{\rm{.0821d}}{{\rm{m}}^{\rm{3}}}{\rm{atm}}\,{\rm{mo}}{{\rm{l}}^{{\rm{ - 1}}}}{\rm{\;}}{{\rm{K}}^{{\rm{ - 1}}}}} \right)\)

314163 Assuming ideal gas behaviour, the ratio of density of ammonia to that of hydrogen chloride at same temperature and pressure is : (Atomic wt. of \({\rm{Cl}}\,\,{\rm{is}}\,\,{\rm{35}}{\rm{.5u}}\))