Chemical Bonding
Liquid. The liquid state lies between the gaseous and the solid state. The cohesive (attractive) forces between the liquid particles are strong enough to keep them together but not to keep them in a fixed position.
All phases of matter have the strong force. It is the force that occurs in the nuclei of atoms and holds the protons and neutrons together in the nucleus.
Ionic bonds are formed by the attraction of the positively-charged ion to the negatively-charged ion, and the closer they are, the more attractive force. It is just like two magnets of opposite poles, you can slowly bring them together until the attractive force gets strong enough to slam them together.
No, the particles in salt are Sodium ions (Na+) and Chlorine ions (Cl-) which are held together by the electrostatic force in ionic bonds which are strong. This is why salt has a high melting point.
ionize
Protons and neutrons together in the nucleus
liquid.
Liquid. The liquid state lies between the gaseous and the solid state. The cohesive (attractive) forces between the liquid particles are strong enough to keep them together but not to keep them in a fixed position.
Diagnosis of any type of vasculitis involves demonstrating the presence of a strong inflammatory process.
All phases of matter have the strong force. It is the force that occurs in the nuclei of atoms and holds the protons and neutrons together in the nucleus.
Strong Bad's Cool Game for Attractive People happened in 2008.
Strong Bad's Cool Game for Attractive People happened in 2008.
Strong Bad's Cool Game for Attractive People was created on 2008-08-11.
Strong Bad's Cool Game for Attractive People was created on 2008-08-11.
You think probable to a liquid.
Ionic bonds are formed by the attraction of the positively-charged ion to the negatively-charged ion, and the closer they are, the more attractive force. It is just like two magnets of opposite poles, you can slowly bring them together until the attractive force gets strong enough to slam them together.
The strong nuclear force, aka the strong interaction.