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Question: Number of molecules in \(1\) litre of oxygen at NTP: A. \(\dfrac{{6.023\, \times \,{{10}^{23}}}}{{...

Number of molecules in 11 litre of oxygen at NTP:
A. 6.023×102332\dfrac{{6.023\, \times \,{{10}^{23}}}}{{32}}
B. 6.023×102322.4\dfrac{{6.023\, \times \,{{10}^{23}}}}{{22.4}}
C. 32×22.432\, \times \,22.4
D. 3222.4\dfrac{{32}}{{22.4}}

Explanation

Solution

To answer this question we should know about the NTP. From the NTP condition we will compare the volume and number of moles to determine the number of moles of oxygen. Then by using Avogadro number we will compare the number of moles and number of molecules to determine the number of molecules of oxygen gas.

Complete step-by-step answer:
The NTP is known as normal temperature and pressure. The value of normal temperature in kelvin is298K298\,{\text{K}}. The value of the normal pressure in atm is1atm{\text{1}}\,{\text{atm}}. One mole of a gas at 298K298\,{\text{K}} temperature and 1atm{\text{1}}\,{\text{atm}} pressure occupies 22.4L22.4\,{\text{L}}volume.

So, from the NTP condition we know, 22.422.4 L volume of oxygen is equal to one mole so, one liter of oxygen will be equal to,
22.422.4 L volume of a oxygen gas = one mole of the oxygen gas
11 L volume of a oxygen gas = 122.4\dfrac{1}{22.4} mole of the oxygen gas
According to Avogadro number one mole of any substance contains 6.023×10236.023\, \times \,{10^{23}} atoms ions or molecules.
From the Avogadro law, one mole of oxygen gas contains 6.023×10236.023\, \times \,{10^{23}} oxygen molecules so, 1/22.41/22.4mole of the oxygen gas will contains,
One mole of oxygen gas = 6.023×10236.023\, \times \,{10^{23}}Oxygen molecules
And we know,
One mole of oxygen gas = One oxygen molecule
So, 1/22.41/22.4mole of the oxygen gas = 6.023×102322.4\dfrac{{6.023\, \times \,{{10}^{23}}}}{{22.4}} oxygen molecules
So, the number of molecules in 11 litre of oxygen at NTP is 6.023×102322.4\dfrac{{6.023\, \times \,{{10}^{23}}}}{{22.4}}.

Therefore, option (B) 6.023×102322.4\dfrac{{6.023\, \times \,{{10}^{23}}}}{{22.4}} is correct.

Note: There is a slight difference between NTP and STP. STP is known as standard temperature and pressure. The value of standard temperature in kelvin is 273K273\,{\text{K}}. The value of the standard pressure in atm is 1atm{\text{1}}\,{\text{atm}}. One mole of a gas at 273K273\,{\text{K}} temperature and 1atm{\text{1}}\,{\text{atm}} pressure occupies 22.4L22.4\,{\text{L}} volume. NTP or STP condition gives the relation between the number of moles and volume.