O2 because it has more electrons. Because of the higher number of electrons, it has higher dispersion forces (attractive forces). This means that more energy (heat) is required to unstick the molecules into a different state of matter.
O2 has a boiling point of -183 degree centigrade while neon has a boiling point of -246 degree centigrade. So, Oxygen has a comparatively higher boiling point than Neon.
No, Nitrogen is around -190 C and hydrogen is around -250 c.
NO has the highest boiling point.
NO
NaCl
LOx (liquid diatomic oxygen) boils at -182.96oC, -297.33oF.
The boiling point in degree Celsius are given below:Na: 883K: 774Si: 2355Ne: -246Silicon has the highest boiling point among the elements given.
NO2 has a higher boiling point than CO2 because the nitrogen radii is larger than carbon. The bigger the atom the more intermolecular force that is created...this requires more energy to break causing a higher boiling point.
It isn't even a gas at that temperature let alone being ideal. The boiling point of O2 is 90 K and the melting point is 55K. So at 33 K it is a solid. At extremely low pressures this might change a bit, but you gave a huge pressure so not the case.
NaCl
LOx (liquid diatomic oxygen) boils at -182.96oC, -297.33oF.
O2, SO2, HF.. im positive, just did a webassign if you know what that is but its right...
The atoms in O2 move much too quickly to boil. ;D
HF is electronegative compared to O2. HF has delta plus and delta minus creating a dipole moment, it is a polar molecule therefore it has a higher boiling point. O2 which is symmetrical and non polar (looks like O=O) and therefore has no dipole moment.
The boiling point in degree Celsius are given below:Na: 883K: 774Si: 2355Ne: -246Silicon has the highest boiling point among the elements given.
NO2 has a higher boiling point than CO2 because the nitrogen radii is larger than carbon. The bigger the atom the more intermolecular force that is created...this requires more energy to break causing a higher boiling point.
Melting point 54.36 K (-218.79 °C, -361.82 °F) Boiling point 90.20 K (-182.95 °C, -297.31 °F) Critical point 154.59 K, 5.043 MPa Heat of fusion (O2) 0.444 kJ·mol−1 Heat of vaporization (O2) 6.82 kJ·mol−1 Specific heat capacity (25 °C) (O2) 29.378 J·mol−1·K−1
It is simply the water that freexes. Water is not simply a mixture if hydrogen and oxygen. The two elements are bound together to form water molecules. So it must be treated as its own substance. The behavior of water cannot be explained using the behavior of elemental hydrogen or oxygen. Its properties are different from its constituent elements.
It isn't even a gas at that temperature let alone being ideal. The boiling point of O2 is 90 K and the melting point is 55K. So at 33 K it is a solid. At extremely low pressures this might change a bit, but you gave a huge pressure so not the case.
Common results point to "You can not clean an O2 sensor, it must be replaced"
O2 sat on room air or arterial blood would be lower than normal. CO2 levels would be higher.