Chemical bonding is the force of attraction that holds atoms together to form molecules or compounds. There are two primary types of chemical bonds: ionic and covalent bonds. Both these bonds play a ...

Positron, the antiparticle of electron, has the same mass and charge as that of an electron but with the sign flipped for the charge. It is an attractive particle for scientists because the use of ...

The properties of elements and compounds can be explained by considering the different types of bonding present inside the molecules. All ionic compounds have a high melting point and boiling point.

The film discusses the importance of solutions in various aspects of life and science. It explains how solutions differ from suspensions and colloids, illustrating the process of dissolving substances ...

Can be used to recap on covalent and ionic compounds or could lead into a classroom discussion on chemical changes and structures.

Model of a slit-like pore filled with electrolyte. Different components are color-coded: [EMIM]+ ions in red, [NTF₂] ions in blue, DMSO molecules in green, and water in yellow. Black layers represent ...

A growing body of evidence from the analysis of biominerals 1,2, the crystallization of ionic compounds 3,4,5,6 and proteins 7,8,9,10, colloidal assembly 11,12 and nanocrystal synthesis 13,14,15 ...