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iDeeKay London Forces(:
Xenon is a monoatomic gas.
London Disperson Forces (or Induced Dipole - Induced Dipole)
They are different atoms.
It is made up of xenon atoms.
iDeeKay London Forces(:
Xenon is a monoatomic gas.
London Disperson Forces (or Induced Dipole - Induced Dipole)
They are different atoms.
The boiling point of a substance is determined by the strength of its intermolecular forces. Radon, being a larger atom with more electrons, has stronger London dispersion forces compared to xenon and krypton. This stronger intermolecular force requires more energy to overcome, resulting in a higher boiling point for radon.
It is made up of xenon atoms.
2.36 moles x 6.022*10^23 atoms/mole. Moles cancel and you are left with 1.42*10^24 xenon atoms.
Xenon- atoms Xenon tetrafluoride- molecules
BrF is polar, its dipole moment is known, 1.4D . Dipole -dipole will be the strongest intermolecular force. Dispersion forces will also be present. The argument runs - Dispersion forces are caused by the total number of electrons, compare BrF (number of electrons 44 with noble gases say Xenon, 54 electrons) BrF decomposes around 200C , its boiling point which is considerably higher than the bp of xenon (-108 oC). Indicating factors other than disperison forces are at play causing the bp to be so high.
It is a compound of Xenon and Oxygen in which each atom of Xenon it attached to three atoms of oxygen.
5.66 X 1023 atoms of xenon (1 mole Xe/6.022 X 1023) = 0.940 moles of xenon ------------------------------
Neither. Xenon comes as individual atoms.