Covalent Bonds~ you're welcome ^^
gravity
metallic bonds
London dispersion forces
Strong chemical bonds in solids are ionic bonds, covalent bonds in giant network molecules and metallic bonds. Weak bonds in solids holding discrete molecules together are hydrogen bonds in solid H2O, HF, NH3 Weak intermolecular forces including dispersion forces and permanent dipole interactions
This is because different substances have varying inter molecular forces due to electron distributions. Also the weakest of the attractive forces are found in the gases and the stronger ones are found in the solids.
gravity
metallic bonds
London dispersion forces (also known as van der Waals forces) hold molecular solids together. or Intermolecular forces
London dispersion forces
Agree, because this repulsion of like electrostatic charges is an inherent property of such charges. However, the repulsive force can be exceeded by attractive, atomic level forces, such as those that form atomic nuclei from many protons, or by attractive electrostatic forces between opposite charges, as occurs in metallic bonding and ionic solids.
Strong chemical bonds in solids are ionic bonds, covalent bonds in giant network molecules and metallic bonds. Weak bonds in solids holding discrete molecules together are hydrogen bonds in solid H2O, HF, NH3 Weak intermolecular forces including dispersion forces and permanent dipole interactions
This is because different substances have varying inter molecular forces due to electron distributions. Also the weakest of the attractive forces are found in the gases and the stronger ones are found in the solids.
Network solids.
Network Solids are atomic solids that contain strong directional covalent bonds to form a solid that might be best viewed as a giant molecule.
Network solids, or network atomic solids, are large crystals with covalent bonds holding the atoms together. Gemstones including diamonds and rubies are network solids. Crystalline solids have a constituent arranged in ordered patterns and include amethyst quartz.
Butter does not have a definite melting point because it is an example of an amorphous solids, and amorphous solids have non uniform attractive forces between the particles. Therefore the particles of the butter will not all melt together but rather the melting will happen gradually. Having a mixture of particles where some areas are going to have strong forces of bonds and other weak forces of bonds. The weak forces will over come first and later the strong forces will overcome, and that is how butter melts.
This question doesn't really make much sense as stated, so I'm going to have to take a stab at figuring out what you really meant:The attractive forces between molecules are strongest in the solid phase and weakest in the gas phase.The NATURE of the attractive forces depends on what the actual particles are, so you'd need to provide additional information in order for us to answer.