Not answering your Q directly, but PTFE was formulated to resist chlorine attack on process vessels. This may give you a starting direction.
Magnesium has 2 electrons in its outer shell, which it can donate to chlorine. This transfer allows magnesium to achieve a stable octet configuration, while chlorine gains a full outer shell by accepting the electrons. This results in the formation of magnesium chloride, an ionic compound.
yes cornovours are consumers.
Nitrogen is a nonmetal with 5 valance electrons, which tends to receive three electrons to complete it outer electron shell.
Metals and non-metals combine through a sort of extreme electron sharing called ionic bonding. In ionic bonds, the metal atom is said to lose one or more of its electrons and give it to the nonmetal.
The metals aluminum, calcium, and potassium will give up electrons to be stable. Chlorine is a nonmetal and it will gain an electron in an ionic bond in order to be stable.
Chlorine oxide can exhibit both acidic and basic properties, depending on the specific compound and conditions. For example, chlorine dioxide (ClO2) is an acidic oxide, while chlorine monoxide (Cl2O) is a basic oxide.
chlorine is used as disinfactant and as a chelating agent
yes
An example of an ionic bond is table salt, or sodium chloride (NaCl). In this bond, sodium, a metal, donates an electron to chlorine, a nonmetal, forming ions with opposite charges that are attracted to each other and held together by electrostatic forces.
When a small quantity of chlorine gas is released into a closed vessel, its molecules are in constant motion and spread out quickly due to their high kinetic energy. This results in even distribution of chlorine molecules, filling up the entire volume of the vessel. Additionally, chlorine gas follows the principles of diffusion, mixing evenly throughout the container to achieve equilibrium.
give reasons why blendig is done
I can't answer the initial question if chlorine generators give off high chlorine false readings. I have an inline chlorine dispenser and it seems to work just fine for me. But the second part of the question asking if high chlorine will give false readings for pH and TA. I have read that somewhere and I am currently researching to validate that finding.
' I love you so much , Chlorine, that I am going to give you my outer valance electron. '
The word equation for the reaction of chlorine with water is: chlorine + water → hydrochloric acid + hypochlorous acid.
Chlorine gas reacts with water to give hypochlorous acid and hydrochloric acid Cl2 + H2O -> HOCl + HCl Chlorine gas reacts with water to give hypochlorous acid and hydrochloric acid
Give it to a friend with a swimming pool, they will thank you for it. Hatawa