Halogen
this totally depends on the amount of total chlorine given by the source water and the contaminents and or cross connections.
Multiply the moles given, by the atomic mass of chlorine and you have your answer. (3.55 Grams)
A chlorine solution in gasoline. It should be noted that this is an extremely bad thing to try, given that any improper use of chlorine will almost certainly result in somone dying.
Yes. The formula for potassium chloride is KCl, showing that equal numbers of atoms of potassium and chlorine are required to form the compound. The gram atomic masses of these two atoms are close enough that the given amounts of the two elements show far more than enough chlorine to complete the reaction. Therefore, the only product of the reaction will be potassium chloride, but there will be a considerable amount of unreacted chlorine remaining after the reaction is complete.
sodium chloride
Chlorine, Fluorine, Bromine, Iodine and Astatine are members of the Halogen family.
Chlorine is a group 17 element and has the highest electronegativity among the elements given.
They are called halogens. They are in the 17th period. They have 7 electrons in the outermost energy level.
Alkali Metals
boron family
Only sodium and chlorine will form ionic bond. the other pair given here will form covalent bond
"Noble gases" is the usual name given. The noble gases are inert due to closed electron systems and strong typically antibonding character in their molecular orbital systems.
What they have in common is that the ones of the same family is that they all have a close amount of protons.
Group 7 on the periodic table is called Halogens.
this totally depends on the amount of total chlorine given by the source water and the contaminents and or cross connections.
An absolute complement is the set which includes exactly the elements belonging to the universal set but not to a given set.
Elements includes Talk time which is the rate of production. Standard inventory, this includes units in machines required to keep production running. Precise work sequence which is the required time to perform a given task.