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Diffusion can be explained by the kinetic-molecular theory.
Lewis structures do not tell you anything about molecular geometry you have to invoke hybridisation argumments or us VSEPR (AXE theory) to make predictions
they have no volume and their molecular force of attraction is negligible
The five elements have been selected and numbered by the Chinese. The characteristics why they have been chosen for example it's because they are the basic things in nature. Every element has it's own characteristics. As to texture, molecular hardness, weight, and physical characteristics.
If it is an element, then the smallest particle that retains the characteristics of the element is an atom. If it is a diatomic element, then the smallest particle that retains the characteristics of the element is a molecule. If it is a molecular compound, then the smallest particle that retains the characteristics of the compound is a molecule. If it is an ionic compound, the smallest particle that retains characteristics of the compound is a formula unit.
Diffusion can be explained by the kinetic-molecular theory.
Diffusion can be explained by the kinetic-molecular theory.
intermolecular forces
o hai
low melting point
it doesnt
natural selection
Molecular (more correct is covalent) compounds have covalent bonds; electrons are shared between two atoms.
This is based upon the chemical characteristics of the elements that are present within the molecular formula.
some of the major characteristics of the phylum are a shared body plan, embryonic development patterns, and specific molecular sequences.
Lewis structures do not tell you anything about molecular geometry you have to invoke hybridisation argumments or us VSEPR (AXE theory) to make predictions
When two atoms combine, the overlap of their atomic orbitals produces molecular orbitals. An atomic orbital belongs to a particular atom, whereas a molecular orbital belongs to a molecule as a whole. Much like an atomic orbital, two electrons are required to fill a molecular orbital. A bonding orbital is a molecular orbital occupied by the two electrons of a covalent bond