Tuesday, November 8, 2022

Let This Soft Candy Melt In Your Mouth To Rebuild Your Gums and Teeth

Who would have thought that a candy could save anyone struggling with tooth decay and inflamed gums?

This natural, soft candy has stunned both scientists and people all around the world: simply let it melt in your mouth, after brushing your teeth, to get rid of cavities almost overnight.

It will not only restore your teeth, but also rebuild your gums and eliminate bad breath.

See here the amazing results of 34,788 people who have already tried this.

































n a third process, magnetic grains grow during chemical reactions, and record the direction of the magnetic field at the time of their formation. The field is said to be recorded by chemical remanent magnetization (CRM). A common form of chemical remanent magnetization is held by the mineral hematite, another iron oxide. Hematite forms through chemical oxidation reactions of other minerals in the rock including magnetite. Redbeds, clastic sedimentary rocks (such as sandstones) are red because of hematite that formed during sedimentary diagenesis. The CRM signatures in redbeds can be quite useful and they are common targets in magnetostratigraphy studies.[10] Isothermal remanent magnetization See also: Remanence Remanence that is acquired at a fixed temperature is called isothermal remanent magnetization (IRM). Remanence of this sort is not useful for paleomagnetism, but it can be acquired as a result of lightning strikes. Lightning-induced remanent magnetization can be distinguished by its high intensity and rapid variation in direction over scales of centimeters.[11][10] IRM is often induced in drill cores by the magnetic field of the steel core barrel. This contaminant is generally parallel to the barrel, and most of it can be removed by heating up to about 400 ℃ or demagnetizing in a small alternating field. In the laboratory, IRM is induced by applying fields of various strengths and is used for many purposes in rock magnetism. Viscous remanent magnetization













No comments:

Post a Comment