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Question: At NTP, \(5.6\) litre of a gas weighs \(8\) gram. The vapor density of gas is found to be. A. \(32...

At NTP, 5.65.6 litre of a gas weighs 88 gram. The vapor density of gas is found to be.
A. 3232
B. 4040
C. 1616
D. 88

Explanation

Solution

We know that NTP is Normal Temperature and Pressure which is defined as a temperature of 200C{20^0}C and 11 atmosphere. Vapor density is defined as the density of a vapor in relation to that of hydrogen. Vapor density can tell us whether a gas is denser or less dense than air.

Complete step by step answer:
To find the vapor density first we have to calculate the number of moles.
Since we know that, 11 mole of gas occupies 22.4L22.4L at normal temperature and pressure.
Number of moles can be given by the equation.
Number of moles=Given volume22.4Number{\text{ }}of{\text{ }}moles = \dfrac{{Given{\text{ }}volume}}{{22.4}}
Therefore, by substituting the values from the question we get,
=5.622.4= \dfrac{{5.6}}{{22.4}}
=0.25moles= 0.25moles (equation1)(equation1)
Number of moles can also be given by the equation.
Number of moles=Given massMolecular massNumber{\text{ }}of{\text{ }}moles = \dfrac{{Given{\text{ }}mass}}{{Molecular{\text{ }}mass}}
Therefore, by substituting the values from the question and 0.250.25 from equation1equation1 we get,
0.25=8Molecular mass0.25 = \dfrac{8}{{Molecular{\text{ }}mass}}
Molecular mass=80.25Molecular{\text{ }}mass = \dfrac{8}{{0.25}}
=32g= 32g (equation2)(equation2)
To find the vapor density we use the formula,
Vapour density=Molecular mass2Vapour{\text{ }}density = \dfrac{{Molecular{\text{ }}mass}}{2}
By substituting the value of molecular mass from equation2equation2
=322= \dfrac{{32}}{2}
=16= 16

So, the correct answer is Option C.

Additional information:
Vapor density is the relative weight of a gas compared to that of air. It is a unitless quantity. If the vapor density is greater than one the gas usually sinks in air and it the value of vapor density is less than one gas usually rises in the air
Molecular mass: It can be defined as the sum of atomic masses of all the atoms in the molecule.
Molar mass: It is the mass of one mole of one whole compound.

Note: Similar to NTP there is STP which is Standard Temperature and Pressure. So according to STP the standard temperature was fixed as 273.15K273.15Kand an absolute pressure of 105Pa{10^5}Pa.
Atoms can be defined as the smallest part of an element.
Atomic mass can be defined as the mass of one single atom which is measured in one atomic mass unit.
One a.m.u equals one-twelfth the mass of one isotope of carbon atom.
1a.m.u=112mass of C12 atom1a.m.u = \dfrac{1}{{12}}mass{\text{ }}of{\text{ }}{C^{12}}{\text{ }}atom