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Molecules must consider temperature and concentration when considering to react with one another.
Decreasing the temperature reduces the kinetic energy of the molecules involved. This means that fewer molecules have the activation energy required to actually react. It also means that molecules will collide less often.
The number of collisions with enough energy to react increases.
the molecules are not in position to form bonds
autoionization
Molecules must consider temperature and concentration when considering to react with one another.
Decreasing the temperature reduces the kinetic energy of the molecules involved. This means that fewer molecules have the activation energy required to actually react. It also means that molecules will collide less often.
Molecules react to thermal energy, or heat, as well as pressure. When you increase the temperature of molecules, they will increase their vibration and movement. Pressure can also allow molecules to move from one area to another.
There is an entire column of elements on the right side of the periodic table that are non reactive. Some molecules only react under special conditions of pressure and temperature.
Molecules that react with one another are called reactants.
The number of collisions with enough energy to react increases.
When there is an increase in an object or medium's temperature, its particles have increase kinetic energy. Temperature is the measure of the average amount of kinetic energy within an object or medium.
Physics is the study of how energy and matter react.
Thermoreceptors react to variation in temperature.
Objects acccelerate when a force is applied, a=F/m.
Since oil is a liquid. it can b known from that and from the known facts, oil has double bonds. no oil is completely saturated. the double bonds allow the iodine radicals to react to carbon molecules with double bonds in turn saturating the oil molecules. however the reaction takes place in a dark environment at boiling temperature and in presence of a suitable catalyst.
The CFC molecules affect ozone layer. These molecules react with ozone to deplete it.