What is the volume of 1 mole of gas at NTP?
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What is the volume of 1 mole of gas at NTP?
22.4 L
The molar volume of an ideal gas at NTP is 22.4 L for one mole of a gas.
Why does one mole of any gas occupy the same volume?
According to Avogadro’s Law, gases having the same volume, have the same number of molecules in that specific volume ( or Avogadro’s number molecules) under the same conditions of temperature and pressure.
How do you find moles from volume at NTP?
We know that, 1 mole of gas occupies 22.4 L at NTP 1 mole of O2 gas occupies 22.4 L at NTP O2 contains 2 moles of oxygen atom. Hence 2 moles of oxygen atom occupies 22.4 L at NTP Mole = Volume / 22.4 Therefore, 1 mole of oxygen atom contains 22.4 / 2 = 11.2 L at NTP.
Which occupies the maximum volume at NTP 1 mol H2?
question_answer Answers(1) 1 mole of N2 occupies 22.4 liters of volume at STP.
What is GMV law?
GMV means gram molar volume. According to which every gas has fixed no. of molecules in a particular fixed volume at a given temperature and pressure or under standard conditions i.e the volume taken by 1 mole of a gas at particular standard temperature and pressure condition is called as GMV.
How do you calculate moles from NTP?
What is the volume of NTP?
22.4 lit
Volume of ideal gas at NTP is 22.4 lit where as at STP ,it is 22.7 lit .
Which will occupies maximum volume at NTP?
More the number of moles, more will be the volume at NTP. Therefore, 17g of NH₃ contain maximum number of moles out of all. Thus, it has maximum volume at NTP i.e. 22.4L.
Which of the following has minimum volume at NTP?
We all know that 1 mole of molecules of any gas occupies 22.4 L at NTP and 1 mole of atoms any diatomic gas (H2,O2 and N2) occupies 11.2 litres at NTP.
What is gram molar volume GMV?
The volume occupied by one gram molecular mass or one mole of gas under standard conditions (273 K and 760 mm pressure) is called gram molecular volume (GMV). Its value is 22.4 litres for each gas.