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Xenon is a gas at STP. Gases are not malleable.
The number of atoms is 5,162.10e23.
Xenon has completely filled electrons. So it is chemically inert at STP. But under high temperature and pressure, it can form compounds such as XeF2, XeF4, XeOF2 etc.
xenon <><><><><> Any element that is a gas will uniformly fill a closed 2.0 liter container at STP, or, actually, at any condition.
Xenon is generally chemically inert at STP. But under extreme conditions of high temperature it reacts with fluorine and oxygen forming compounds like XeOF2, XeF4, etc.
Yes. Xenon is noble gas with stable electronic configuration. It does not combine with other elements or itself under STP and exists as single atoms (mono atomic).
xenon is a gas at STP
Xenon is a gas at STP. Gases are not malleable.
The number of atoms is 5,162.10e23.
Normally a gas.
Xenon has completely filled electrons. So it is chemically inert at STP. But under high temperature and pressure, it can form compounds such as XeF2, XeF4, XeOF2 etc.
xenon <><><><><> Any element that is a gas will uniformly fill a closed 2.0 liter container at STP, or, actually, at any condition.
Xenon is generally chemically inert at STP. But under extreme conditions of high temperature it reacts with fluorine and oxygen forming compounds like XeOF2, XeF4, etc.
The max. length of STP is the same as UTP, 100 meters
To determine how many atoms are present in 56 liters of oxygen gas at STP you first need to know that there are two atoms in a single molecule. Then, you would work the scientific formula to determine the number of molecules in the oxygen gas.
0.250 mol
If these atoms are loose unities, not bonded in a molecule, it would be about 22 dm3 at 0oC and standard pressure (STP). If the atoms would have formed gas molecules, e.g. CO2 or SF6, the answer would be different, because 6.02 x 1023 molecules always take in a volume of about 22 dm3 at STP. But with CO2 you would have then 18 x 1023 atoms because there are 3 atoms in one molecule.