PClF2 is made up of two fluorine atoms one chlorine atom and one phosphorus atom.
metal compound and chlorine
Fluorine is not an essential nutrient to humans, but as a compound, it is often put in our water supplies to combat tooth decay. Some foods may have very minute traces of Fluorine as a compound. Many plants contain Fluorine compounds which acts as a defense against plant eating animals. Apart from drinking Fluoridated tap water, the next most likely means of getting Fluorine into the human body would be by taking certain prescription drugs. Elemental Fluorine is a highly toxic gas and very small doses can be deadly.
Flourine and Cholrine have similar properties because they have the same number of electrons in outmost shell (7). Each group has similar properties because their amount of valence electrons (electrons in the outmost shell) can only support bonding with certain elements.
Answer#1No. Chlorine (though deadly) is non-flammable. Pure chlorine can, however react explosively with certain metals. Much the same way metallic sodium reacts with water. BOOM!
C.Water must have the chlorine removed before it is dumped back into the ocean.
Health laws in the U.S. require a certain percentage of chlorine in a swimming pool in order for it to be healthy for humans to swim in. Does YOUR bleach have chlorine in it? Public drinking water supplies have small amounts of chlorine and fluorine in them.
If you notice that a compound is composed only of 1 of certain elements, you can deduct they are ionicly bonded. The 7 chemicals are Hydrogen, Oxygen, Fluorine, Bromine, Iodine, Nitrogen and Chlorine. If you discover a new one contact me at natevd95. Hope this is helpful.
metal compound and chlorine
Chlorine would be most similar to fluorine. They are in the same group of the periodic table, so they undergo the same types of reaction in general, and chlorine is the next most reactive after fluorine.
Fluorine is not an essential nutrient to humans, but as a compound, it is often put in our water supplies to combat tooth decay. Some foods may have very minute traces of Fluorine as a compound. Many plants contain Fluorine compounds which acts as a defense against plant eating animals. Apart from drinking Fluoridated tap water, the next most likely means of getting Fluorine into the human body would be by taking certain prescription drugs. Elemental Fluorine is a highly toxic gas and very small doses can be deadly.
certain elements naturally occur in pairs, called diatomic elements: Nitrogen, Oxygen, Fluorine, Chlorine, Bromine, and i believe Iodine. Ie. in nature, you never see a nitrogen by itself.
Iodine is very less abundant compared to fluorine and chlorine and it is found in seawater also with chlorides,bromides etc and certain forms of marine life also contain Iodine in their systems.Eg Seaweeds
Yes but in certain casses only.
Flourine and Cholrine have similar properties because they have the same number of electrons in outmost shell (7). Each group has similar properties because their amount of valence electrons (electrons in the outmost shell) can only support bonding with certain elements.
Certain gases do not exist unless they are manufactured. Examples would be fluorine or Chlorine. As they are highly reactive they wouldn't even exist for long if they were created. The same can be said for a lot of eccentric gaseous compounds. For naturally occurring gases Krypton and Xenon are the rarest Nobel gases.
The question is very confusingly worded (and, in English, ungrammatical). How about I ignore it and just answer the question I feel like answering, which is "What will krypton react with?" Krypton will react with fluorine and oxygen under certain conditions. KrAr+ and KrH+ polyatomic ions have been investigated, and there's some evidence for a KrXe or KrXe+ species. Krypton apparently can also bond with nitrogen or carbon if you start with a krypton-fluorine compound and react it with a cyanide compound at low temperatures. That's pretty much it, so far as is currently known.
yes some plants have high concentrations of chlorine, like fungi and rose bushes