YES
Gases have the highest kinetic energy, followed by liquids, and then solids. -apex
The electrostatic force between the positive ions and the negative ions are very strong, so it requires a large amount if energy to break them. The attractive force between covalent molecular is weak, so less heat energy is required to break it.
Covalent solids and molecular solids typically have lower melting points than ionic solids. This is because the intermolecular forces holding covalent and molecular solids together are generally weaker than the electrostatic forces binding ionic solids, resulting in lower energy requirements for melting.
Network solids have a three-dimensional structure with strong covalent bonds throughout, leading to a higher melting point compared to molecular solids which have weaker intermolecular forces. In network solids, a larger amount of energy is required to break the extensive network of covalent bonds, resulting in a higher melting point.
No, liquids and solids do not diffuse as easily as gases due to their tightly packed molecular structure and lower kinetic energy. Diffusion in liquids is generally slower than in gases, but it can still occur over time. In solids, diffusion is even slower due to the rigid arrangement of molecules.
yes
Solids have thermal energy because all objects have thermal energy.
Solids have potential energy, which is the stored energy that an object possesses due to its position or condition. This energy can be converted into kinetic energy when the object moves or changes position.
By conduction
Energy
Gases have the highest kinetic energy, followed by liquids, and then solids. -apex
Solids have the lowest kinetic energy as their particles are tightly packed and have limited motion. Liquids have higher kinetic energy than solids as their particles can move past each other. Gases have the highest kinetic energy as their particles are far apart and move freely.
Yes... the transfer of energy via the vibrating molecules of solids.....
Conduction
Conduction
The kinetic theory states that particles in solids vibrate around fixed positions. The kinetic energy present in solids is due to the motion of these particles as they vibrate. This kinetic energy is directly related to the temperature of the solid.
I suppose that you think to lattice energy in crystalline solids.