Hydrogen and neon are similar in their behavior as nearly ideal gasses.
Normally, deviations from ideal gas behavior become prominent as the temperature approaches the condensation (or equivalently boiling) point. Real gasses condense because of the attractive forces between the atoms and an ideal gas has no inter atomic forces.
Neon condenses at 27 degrees Kelvin and hydrogen condenses at 20 degrees Kelvin.
One expects neon to show more deviation from ideal gas behavior.
N2 is non polar so weak vander woals forces present between molecules.HBR is polar so strong dipole-dipole forces present.Hence Ideal gases have no inter molecular forces,the gas with less inter molecular force behaves idealy.
HBr because it's a dipole, which increases the force of attraction between the molecules.
Neon (Ne), as it has no dipole moment.
nitrogen
At room temperature, neon, which is an inert gas, is far and away less dense than water. Water, as you know, is a liquid at room temperature, and neon is never found in nature on earth as anything but a gas. A link can be found below.
There a multiple elements that fit this description. Oxygen is a diatomic gas found in the earth's atmosphere. Nitrogen is also a diatomic gas found in the earths atmosphere. Thus, both of these elements fit the description.
That varies, depending on the refractive indices of the materials involved. The critical angle can be derived from Snell's law; it is equal to arcsin(n2/n1), where n2 and n1 are the refractive indices of the materials involved.
To get laser action 1)population inversion should be achieved to get stimulated emission.(ie)N2>N1 Where N1 and N2 are the number of atoms in level E1 and E2 respectively. 2)stimulated emission should be effective over than the spontaneous emission.
This compound is HBr.
helium behaves more ideally.... all the conditions for an ideal gas are almost the same in he and hydrogen except hydrogen is diatomic so it has forces of attraction and helium is monoatomic.
KF
There are more than one gas which has their molar mass of 28 g/mol. Nitrogen N2 and ethene C2H4 are two examples.
NH3, as in Ammonia, like all real gases, are not ideal. Ideal gases follow the ideal gas laws, but ammonia does not adhere to a few of them. First of all, the volume of its molecules in a container is not negliggible. Next, NH3 molecules have intermolecular hydrogen bonding, which is a strong intermolecular bond. Thus, the forces of attaction between molecules is not neglible. All real gases have a certain degree of an ideal gas, but no real gas is actually ideal, with H2 being the closest to ideal.
The substances represented by the chemical formula N2 is nitrogen gas.
assuming it is an ideal gas: p=(nRT)/v=(3.2*.0821*373)/15 P=6.53 ATM
nitrogen is a gas (N2)
Well, nitrogen has no formula, futher more, nitrogen GAS has a formula known as N2
N2
N2
No. N2 is chemical formula for nitrogen gas. Ne is the symbol for neon