Answer:
Xenon has a higher boiling point than neon because it exhibits stronger intermolecular forces.
Explanation:
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance is
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces →
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;weaker intermolecular forces
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;weaker intermolecular forces →
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;weaker intermolecular forces → lower boiling point.
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;weaker intermolecular forces → lower boiling point.London dispersion forces are the weakest type of intermolecular forces. They are caused by random distortions in the electron cloud of an atom.
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;weaker intermolecular forces → lower boiling point.London dispersion forces are the weakest type of intermolecular forces. They are caused by random distortions in the electron cloud of an atom.When such distorsions are formed, one side of the atom develops a partial negative charge, and the other side a partial positive charge.
Noble gas atoms only exhibit weak London dispersion forces, which is why their boiling points are so low to begin with.The strength of the intermolecular forces that exists between a substance's molecules (or atoms) determines how high the boiling point of that substance isstronger intermolecular forces → higher boiling point;weaker intermolecular forces → lower boiling point.London dispersion forces are the weakest type of intermolecular forces. They are caused by random distortions in the electron cloud of an atom.When such distorsions are formed, one side of the atom develops a partial negative charge, and the other side a partial positive charge.These partial charges will then polarize a neighbouring atom's electron cloud, i.e. they will cause another atom to develop partial charges.
