13480
\(2\,gm \) of \({O_2}\) at \({27\,^o}C\) and \(760\,mm\) of \(Hg\) pressure has volume ............. \(\mathrm{lit.}\)
1 \(1.5\)
2 \(2.8\)
3 \(11.2\)
4 \(22.4\)
Explanation:
\(P V=n R T\) \(\Rightarrow V=\frac{n R T}{P}\) \(=\frac{\frac{2}{32} \times 0.0821 \times(27+273)}{\frac{760}{760}} \,L\) \(=1.53\, L\)
States of Matter
13481
Pressure of a gas in a vessel can be measured by
1 Barometer
2 Manometer
3 Stalgometer
4 All the baove
Explanation:
(b) Barometer is used to measure atmospheric pressure of mixture of gases. Staglometer is used to measure surface tension. Only manometer is used to measure pressure of pure gas in a vessel.
States of Matter
13482
Volume occupied by a gas at one atmospheric pressure and \({0\,^o}C\) is \(V\, mL\). Its volume at \(273\, K\) will be
1 \(V \,ml\)
2 \(V/2\, ml\)
3 \(2 \,V\)
4 None of these
Explanation:
(a) \({0\,^o}C\) is equivalent to \({273\,^o}K\) \(i.e.\) conditions are same so volume will be \(V\, ml\).
States of Matter
13483
Which one of the following statements is wrong for gases
1 Gases do not have a definite shape and volume
2 Volume of the gas is equal to the volume of the container confining the gas
3 Confined gas exerts uniform pressure on the walls of its container in all directions
4 Mass of the gas cannot be determined by weighing a container in which it is enclosed
Explanation:
(d) The mass of gas can be determined by weighing the container, filled with gas and again weighing this container after removing the gas. The difference between the two weights gives the mass of the gas.
States of Matter
13484
Which of the following exhibits the weakest intermolecular forces
1 \(N{H_3}\)
2 \(HCl\)
3 \(He\)
4 \({H_2}O\)
Explanation:
(c) Nobel gases has no intermolecular forces due to inertness.
13480
\(2\,gm \) of \({O_2}\) at \({27\,^o}C\) and \(760\,mm\) of \(Hg\) pressure has volume ............. \(\mathrm{lit.}\)
1 \(1.5\)
2 \(2.8\)
3 \(11.2\)
4 \(22.4\)
Explanation:
\(P V=n R T\) \(\Rightarrow V=\frac{n R T}{P}\) \(=\frac{\frac{2}{32} \times 0.0821 \times(27+273)}{\frac{760}{760}} \,L\) \(=1.53\, L\)
States of Matter
13481
Pressure of a gas in a vessel can be measured by
1 Barometer
2 Manometer
3 Stalgometer
4 All the baove
Explanation:
(b) Barometer is used to measure atmospheric pressure of mixture of gases. Staglometer is used to measure surface tension. Only manometer is used to measure pressure of pure gas in a vessel.
States of Matter
13482
Volume occupied by a gas at one atmospheric pressure and \({0\,^o}C\) is \(V\, mL\). Its volume at \(273\, K\) will be
1 \(V \,ml\)
2 \(V/2\, ml\)
3 \(2 \,V\)
4 None of these
Explanation:
(a) \({0\,^o}C\) is equivalent to \({273\,^o}K\) \(i.e.\) conditions are same so volume will be \(V\, ml\).
States of Matter
13483
Which one of the following statements is wrong for gases
1 Gases do not have a definite shape and volume
2 Volume of the gas is equal to the volume of the container confining the gas
3 Confined gas exerts uniform pressure on the walls of its container in all directions
4 Mass of the gas cannot be determined by weighing a container in which it is enclosed
Explanation:
(d) The mass of gas can be determined by weighing the container, filled with gas and again weighing this container after removing the gas. The difference between the two weights gives the mass of the gas.
States of Matter
13484
Which of the following exhibits the weakest intermolecular forces
1 \(N{H_3}\)
2 \(HCl\)
3 \(He\)
4 \({H_2}O\)
Explanation:
(c) Nobel gases has no intermolecular forces due to inertness.
NEET Test Series from KOTA - 10 Papers In MS WORD
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States of Matter
13480
\(2\,gm \) of \({O_2}\) at \({27\,^o}C\) and \(760\,mm\) of \(Hg\) pressure has volume ............. \(\mathrm{lit.}\)
1 \(1.5\)
2 \(2.8\)
3 \(11.2\)
4 \(22.4\)
Explanation:
\(P V=n R T\) \(\Rightarrow V=\frac{n R T}{P}\) \(=\frac{\frac{2}{32} \times 0.0821 \times(27+273)}{\frac{760}{760}} \,L\) \(=1.53\, L\)
States of Matter
13481
Pressure of a gas in a vessel can be measured by
1 Barometer
2 Manometer
3 Stalgometer
4 All the baove
Explanation:
(b) Barometer is used to measure atmospheric pressure of mixture of gases. Staglometer is used to measure surface tension. Only manometer is used to measure pressure of pure gas in a vessel.
States of Matter
13482
Volume occupied by a gas at one atmospheric pressure and \({0\,^o}C\) is \(V\, mL\). Its volume at \(273\, K\) will be
1 \(V \,ml\)
2 \(V/2\, ml\)
3 \(2 \,V\)
4 None of these
Explanation:
(a) \({0\,^o}C\) is equivalent to \({273\,^o}K\) \(i.e.\) conditions are same so volume will be \(V\, ml\).
States of Matter
13483
Which one of the following statements is wrong for gases
1 Gases do not have a definite shape and volume
2 Volume of the gas is equal to the volume of the container confining the gas
3 Confined gas exerts uniform pressure on the walls of its container in all directions
4 Mass of the gas cannot be determined by weighing a container in which it is enclosed
Explanation:
(d) The mass of gas can be determined by weighing the container, filled with gas and again weighing this container after removing the gas. The difference between the two weights gives the mass of the gas.
States of Matter
13484
Which of the following exhibits the weakest intermolecular forces
1 \(N{H_3}\)
2 \(HCl\)
3 \(He\)
4 \({H_2}O\)
Explanation:
(c) Nobel gases has no intermolecular forces due to inertness.
13480
\(2\,gm \) of \({O_2}\) at \({27\,^o}C\) and \(760\,mm\) of \(Hg\) pressure has volume ............. \(\mathrm{lit.}\)
1 \(1.5\)
2 \(2.8\)
3 \(11.2\)
4 \(22.4\)
Explanation:
\(P V=n R T\) \(\Rightarrow V=\frac{n R T}{P}\) \(=\frac{\frac{2}{32} \times 0.0821 \times(27+273)}{\frac{760}{760}} \,L\) \(=1.53\, L\)
States of Matter
13481
Pressure of a gas in a vessel can be measured by
1 Barometer
2 Manometer
3 Stalgometer
4 All the baove
Explanation:
(b) Barometer is used to measure atmospheric pressure of mixture of gases. Staglometer is used to measure surface tension. Only manometer is used to measure pressure of pure gas in a vessel.
States of Matter
13482
Volume occupied by a gas at one atmospheric pressure and \({0\,^o}C\) is \(V\, mL\). Its volume at \(273\, K\) will be
1 \(V \,ml\)
2 \(V/2\, ml\)
3 \(2 \,V\)
4 None of these
Explanation:
(a) \({0\,^o}C\) is equivalent to \({273\,^o}K\) \(i.e.\) conditions are same so volume will be \(V\, ml\).
States of Matter
13483
Which one of the following statements is wrong for gases
1 Gases do not have a definite shape and volume
2 Volume of the gas is equal to the volume of the container confining the gas
3 Confined gas exerts uniform pressure on the walls of its container in all directions
4 Mass of the gas cannot be determined by weighing a container in which it is enclosed
Explanation:
(d) The mass of gas can be determined by weighing the container, filled with gas and again weighing this container after removing the gas. The difference between the two weights gives the mass of the gas.
States of Matter
13484
Which of the following exhibits the weakest intermolecular forces
1 \(N{H_3}\)
2 \(HCl\)
3 \(He\)
4 \({H_2}O\)
Explanation:
(c) Nobel gases has no intermolecular forces due to inertness.
13480
\(2\,gm \) of \({O_2}\) at \({27\,^o}C\) and \(760\,mm\) of \(Hg\) pressure has volume ............. \(\mathrm{lit.}\)
1 \(1.5\)
2 \(2.8\)
3 \(11.2\)
4 \(22.4\)
Explanation:
\(P V=n R T\) \(\Rightarrow V=\frac{n R T}{P}\) \(=\frac{\frac{2}{32} \times 0.0821 \times(27+273)}{\frac{760}{760}} \,L\) \(=1.53\, L\)
States of Matter
13481
Pressure of a gas in a vessel can be measured by
1 Barometer
2 Manometer
3 Stalgometer
4 All the baove
Explanation:
(b) Barometer is used to measure atmospheric pressure of mixture of gases. Staglometer is used to measure surface tension. Only manometer is used to measure pressure of pure gas in a vessel.
States of Matter
13482
Volume occupied by a gas at one atmospheric pressure and \({0\,^o}C\) is \(V\, mL\). Its volume at \(273\, K\) will be
1 \(V \,ml\)
2 \(V/2\, ml\)
3 \(2 \,V\)
4 None of these
Explanation:
(a) \({0\,^o}C\) is equivalent to \({273\,^o}K\) \(i.e.\) conditions are same so volume will be \(V\, ml\).
States of Matter
13483
Which one of the following statements is wrong for gases
1 Gases do not have a definite shape and volume
2 Volume of the gas is equal to the volume of the container confining the gas
3 Confined gas exerts uniform pressure on the walls of its container in all directions
4 Mass of the gas cannot be determined by weighing a container in which it is enclosed
Explanation:
(d) The mass of gas can be determined by weighing the container, filled with gas and again weighing this container after removing the gas. The difference between the two weights gives the mass of the gas.
States of Matter
13484
Which of the following exhibits the weakest intermolecular forces
1 \(N{H_3}\)
2 \(HCl\)
3 \(He\)
4 \({H_2}O\)
Explanation:
(c) Nobel gases has no intermolecular forces due to inertness.