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Nitrogen gas is diatomic.

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What does argon is a monatomic gas and nitrogen is a diatomic gas mean?

The molecule of nitrogen contain two atoms, is diatomic.


Is atmospheric nitrogen monatomic?

No, atmospheric nitrogen (N2) is a diatomic molecule, meaning it consists of two nitrogen atoms bonded together.


Is nitrogen gas diatomic?

Yes, nitrogen gas is diatomic, meaning that its molecule consists of two nitrogen atoms bonded together, represented as N2.


Is nitrogen gas and argon gas the same?

No. Nitrogen gas (N₂) is a diatomic gas consists of molecules each containing two covalently bonded atoms of nitrogen, which is element 7 on the periodic table. Argon gas (Ar) is a monatomic gas, consisting of individual atoms of Argon, which is element 18 on the periodic table.


Is nitrogen a molecule lattice or monotonic?

Nitrogen is a diatomic molecule, meaning it consists of two nitrogen atoms bonded together. It forms a molecular lattice in its solid form and is a gas at room temperature, so it does not exist as a monatomic species under normal conditions.


Is nitrogen monoxide a diatomic?

Nitrogen monoxide is a diatomic gas at standard temperature and pressure.


Are halogen monatomic?

No they are diatomic


Does nitrogen exist as a diatomic?

yup. nitrogen gas-- N2


Is fluorine a monatomic gas at STP?

No, fluorine is a diatomic gas at standard temperature and pressure (STP), meaning it exists as F2 molecules, not as single F atoms.


What is the mass of 1 Mole of diatomic nitrogen gas?

The molar mass of diatomic nitrogen (N2) is approximately 28.02 g/mol. Therefore, the mass of one mole of diatomic nitrogen gas is 28.02 grams.


Diatomic gas most abundant in atmosphere?

This gas is nitrogen.


Why molar specific heat of diatomic gas is larger than that of mono atomic gas?

The molar specific heat of diatomic gases is larger than that of monatomic gases because diatomic gases have more degrees of freedom. While monatomic gases can only store energy through translational motion, diatomic gases can store energy in translational, rotational, and vibrational modes. This additional ability to rotate and vibrate requires more energy, resulting in a higher molar specific heat for diatomic gases compared to monatomic gases.