The bond between solid molecules isn't necessarily different from the bond between liquid or gaseous molecules. They are all essentially the same, but at differing levels of energy.
The two main types of bonds formed between atoms are ionic bonds and covalent bonds. An ionic bond is formed when one atom accepts or donates one or more of its valence electrons to another atom. A covalent bond is formed when atoms share valence electrons. The atoms do not always share the electrons equally, so a polar covalent bond may be the result. When electrons are shared by two metallic atoms a metallic bond may be formed. In a covalent bond, electrons are shared between two atoms. The electrons that participate in metallic bonds may be shared between any of the metal atoms in the region.
Simple covalent molecules tend to have low boiling and melting points, as well as being quite brittle when solid.
Because the molecules of the solid are not strongly bonded to each other and will readily bond to the liquid.
When carbon dioxide is a gas, the molecules repel each other. When carbon dioxide is a solid the molecules do attract each other, and bond in a crystalline structure.
Very large covalent molecules are called macromoleules or sometimes giant molecules. I do not what the part of the question "because the atoms involved continue to bond one another called?" means
I2 exists as solid material in which billions of I2 molecules are linked together through Vander waal bonds, (shifting of electronic clouds of molecules towards the nuclei of other molecules).
A metal is actually solid beforwe application of high heat,a metal becomes molten when the heat is high enough to enable breakage of bonds between molecules of the metal such that the molecules are free to move as in liqiud.so a molten metal becomes solid when molecules form bond again as in solid.
hydrogen bond bonds water molecules with other water molecules.
The three parts of a bond is atoms, molecules, and ions. The three parts of a bond is atoms, molecules, and ions. The three parts of a bond is atoms, molecules, and ions.
The bond between water molecules is called the hydrogen bond.
The intermolecular forces holding gas molecules together are not very strong and thus the molecules are free to move around freely. This allows diffusion. The intermolecular forces holding molecules of a solid together are rather strong, and the molecules thus cannot move very freely. This prevents diffusion.
Simple covalent molecules tend to have low boiling and melting points, as well as being quite brittle when solid.
Because the molecules of the solid are not strongly bonded to each other and will readily bond to the liquid.
When carbon dioxide is a gas, the molecules repel each other. When carbon dioxide is a solid the molecules do attract each other, and bond in a crystalline structure.
The atoms in a solid are arranged in closely packed. Lot of energy is required to break the bond between atoms or molecules. Supplied energy to the solid is loose in the form of vibrations. They vibrate back and forth, but do not (inter)change place, so there is no molecular 'velocity'. Liquids and gases even more have 'speady' molecules (that's why those material states don't have a certain 'shape').
Very large covalent molecules are called macromoleules or sometimes giant molecules. I do not what the part of the question "because the atoms involved continue to bond one another called?" means
The atoms in a solid are arranged in closely packed. Lot of energy is required to break the bond between atoms. Supplied energy to the solid is loose in the form of vibrations and heat. They vibrate back and forth
I2 exists as solid material in which billions of I2 molecules are linked together through Vander waal bonds, (shifting of electronic clouds of molecules towards the nuclei of other molecules).