Sorry but you are still missing an explaination, with evidence based back up, of how solar wind is able to split a silicon dioxide molecule.
Also, all chemical reactions are not electrostatic. Covalent bonds are not electrostatic, they are electron orbital sharing.
Yes, it is called electrostatics, that electron orbital sharing.
Didn't you learn anything about protons and electrons in your physics class, or charged particles in general?
How atoms bond - George Zaidan and Charles Morton | TED-Ed
Because as always you all insist on ignoring laboratory evidence.
covalent bond (chemistry) -- Encyclopedia Britannica
"
covalent bond, in
chemistry, the interatomic linkage that results from the sharing of an
electron pair between two atoms. The binding arises from the
electrostatic attraction of their nuclei for the same electrons."
Electrostatics - Wikipedia, the free encyclopedia
"Electrostatic phenomena arise from the
forces that electric charges exert on each other. Such forces are described by
Coulomb's law. Even though electrostatically induced forces seem to be rather weak, the electrostatic force between e.g. an
electron and a
proton, that together make up a
hydrogen atom, is about 36
orders of magnitude stronger than the
gravitational force acting between them."
But go right ahead and continue to ignore all of science.
BBC - GCSE Bitesize: Covalent bonding - Higher
"The strong bonds between atoms that are joined by covalent bonds are the result of
electrostatic attraction between the positive nuclei of the atoms and the pairs of negative electrons that are
shared between them."
4.2 - Covalent Bonding
But you are confused and I understand.
Chemical Bonding Confusion | Education in Chemistry Blog
"
in introductory courses is fraught with many difficulties and at times may even obscure the fundamental reason for the chemical bond—the electrostatic attraction between positive nuclei and negative electrons"
Bonds-vs-Interactions
"Bonds and intermolecular forces have one very fundamental thing in common. Both mechanisms
are electrostatic forces of attraction (Coulombic forces) between areas of charge. The primary difference between bonds and intermolecular forces is the locations of the areas of charge and the magnitudes of the areas of charge. As a result of these differences, there are significant differences in the strengths of the resulting attractions."
How long are you going to keep ignoring reality in favor of Fairie Dust??????
Chemical Bonding
"We know that each atom is a compromise
between electrostatic attraction between the electrons and the nucleus and electron-electron repulsion."
The Electrostatic Force - Coulomb's Law
"When you view a chemical change, always take a moment to see the change in the light of
electrostatic force. The electrostatic force is the
central force in chemistry. Always take a moment to conceptualize the internal energy associated with chemical change as the work of
electric forces during re-arrangement of electric charges, electrons and protons, in the processes of disaggregration from reagents and reaggregation as products.
Atoms are held together
by the electrostatic force between the nucleus and electrons.
Two atoms in a covalent bond are held together
by the electrostatic force between the nuclei of the atoms and the shared electrons in the inter nuclear space.
Molecules attract one another
by the electrostatic force between induced dipoles (Van der Waals attraction), permanent dipoles (dipole-dipole attraction), or hydrogen bonding (where the positive end of the dipole is a hydrogen atom).
Intermolecular forces, ionic bonds, and metallic bonding
all involve electrostatic force, so it is
electrostatic force that holds together the particles of a substance in condensed phase of matter (solid or liquid).
In a liquid solution, it is
electrostatic forces holding together the solvent and solute. In biochemistry, the structure of a large macromolecule such as a protein, is determined by a complex interplay of
electrostatic forces between the functional groups of the molecule, within the molecule itself, with associated molecules, and with the aqueous solvent. When you learn the fundamentals of
electrostatics in physics, you are preparing yourself to understand chemistry."
But apparently you didn't understand the fundamentals of electrostatics in physics to prepare yourself for understanding chemistry.
EDIT:
You all want to play attack the person, fine, let's play then. Otherwise can we get back to scientific discussions?