because Xenon has more polarizable electrons.
stronger intermolecular forces of attraction
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.
It is a noble gas and so there are no intermolecular forces between the atoms meaning that it requires very little energy to seperate them.
Argon has the higher melting point.
State (s, l, g): gas Melting point: 24.53 K (-248.57 oC) Boiling point: 27.1 K (-246.0 oC)
stronger intermolecular forces of attraction
Whether or not the boiling point of neon is negative depends on the temperature scale used to describe the boiling point. If the boiling point is given in Celsius or Fahrenheit, the boiling point is negative. However, in Kelvin, which cannot be negative, the boiling point is positive.
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.
---- "The boiling point of Neon is -246.048 º C.The melting point of Neon is -248.67 º C." ----
The boiling point of Neon is -246.048 º C The melting point of Neon is -248.67 º C
Boiling Point 27.07 K Melting Point 24.56 K
Neon melts at -415.46 °F and boils at -410.94 °F
It is a noble gas and so there are no intermolecular forces between the atoms meaning that it requires very little energy to seperate them.
Melting Point- 100 degrees Freezing Point- 0 degree
Neon is defined as: a colorless odorless gaseous element that give a red glow in a vacuum tube; one of the six inert gasses; occurs in the air in small amount. Neon is neither a melting or boiling point.
The density of neon at a gas state is 0.89990g/l. The density of neon at its boiling point is 1.207g/cm3.
the boiling point, melting point, density, thermal conductivity.