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Actually it is possible to put a second acyl group on as well, for example with acetyl chloride and triethylamine. Under aqueous basic conditions the second acyl group is far more readily hydrolysed.
Anhydrous calcium chloride (CaCl2) is extremely hygroscopic, meaning it readily adsorbs water or moisture from the surroundings. Therefore, calcium chloride is commonly used as a dessicant.
HCl is hydrogen chloride gas, which readily dissolve in water to form hydrochloric acid.
Al2O3 + 3HBr -> Al2Br3 + 3H2O Aluminium tribromide is readily hydrolysed so the hypothetical end product will react further to give a mix of AlBr(OH) compounds. The best preparation is Al metal plus bromine.
THE SMALL SIZE OF LITHIUM MAKES ITS COMPOUND MORE IONIC ,THE HIGH HYDRATION ENERGY OF LITHIUM ion MAKES IT TO HAVE HIGH AFFINITY FOR WATER MOLECULES HENCE IS EASILY PICKS WATER MOLECULES FROM THE ATMOSPHERE
Actually it is possible to put a second acyl group on as well, for example with acetyl chloride and triethylamine. Under aqueous basic conditions the second acyl group is far more readily hydrolysed.
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Anhydrous calcium chloride (CaCl2) is extremely hygroscopic, meaning it readily adsorbs water or moisture from the surroundings. Therefore, calcium chloride is commonly used as a dessicant.
HCl is Hydrochloric acid (one hydrogen and one chloride) a strong acid (disassociates readily).
CaCl2 is used as a drying agent in the laboratory. It is "deliquescent" and absorbs water very readily.
this is so bcoz neither F nor N has vacant orbitals(remember no d-orbitals)...whereas Cl in NCl3 has vacant d-orbitals to accomodate elctrons n get hydrolysed..
Chlorine atom has 17 electrons. It is readily accepting an electron from another atom to obtain its stable electron configuration (of argon). A chloride ion has 18 electrons.
HCl is hydrogen chloride gas, which readily dissolve in water to form hydrochloric acid.
Al2O3 + 3HBr -> Al2Br3 + 3H2O Aluminium tribromide is readily hydrolysed so the hypothetical end product will react further to give a mix of AlBr(OH) compounds. The best preparation is Al metal plus bromine.
Sodium chloride has got electron configuration of 2,8,1. Potassium chloride has got electron configuration of 2,8,8,1. They behave identically in almost all the chemical reactions. But then you have potassium chloride molecule inside the cell. You need to have sodium chloride molecules out side the body cell to make them survive. If you get intravenous injection of sodium chloride, nothing will happen to you. If you give intravenous injection of potassium chloride, you will die instantly. How body cells recognize the difference between sodium chloride and potassium chloride in no time is the big question mark.
Generally, because sodium is of a positive charge and chlorine, negative, they would readily react to form a salt, sodium chloride.
Chlorine is very active element. It readily combine with any organic matter. So you do not find free chlorine in your body. You find the chlorine as sodium chloride out side the cells. You find double amount of chlorine in, potassium chloride, that is present inside the cells.