It isn't. Hydrogen is often placed in its own series of elements, since nothing is quite like it; even lithium, the next member in its period, is still vastly different in many ways.
Halogen acids typically refer to binary acids containing a halogen atom and hydrogen, such as hydrochloric acid (HCl) or hydrofluoric acid (HF). Hydrogen halides specifically refer to covalent compounds consisting of hydrogen and a halogen element, such as hydrogen chloride (HCl) or hydrogen fluoride (HF). Essentially, all hydrogen halides are halogen acids but not all halogen acids are hydrogen halides.
An alkane. Hence the name alkyl. An alkane is a chain of carbon atoms bonded to each other with single bonds, with hydrogen atoms filling the remainder of the bonds. One hydrogen atom is replaced by a halogen to form an alkyl halide.
F-F Cl-Cl or any other halogen-halogen ;halogen- alkaline metal Na-Cl
An example of a covalent compound formed between an element in period 2 and a halogen is hydrogen fluoride (HF). This compound is formed by the sharing of electrons between the hydrogen atom (period 1) and the fluorine atom (halogen).
because halogen molecules are nonpolar. So, there is no development of permanent polarity.
Halogen acids typically refer to binary acids containing a halogen atom and hydrogen, such as hydrochloric acid (HCl) or hydrofluoric acid (HF). Hydrogen halides specifically refer to covalent compounds consisting of hydrogen and a halogen element, such as hydrogen chloride (HCl) or hydrogen fluoride (HF). Essentially, all hydrogen halides are halogen acids but not all halogen acids are hydrogen halides.
halogen
Hydrogen is not classified as a halogen because halogens form a distinct group of elements with similar chemical properties, whereas hydrogen is a unique element that does not exhibit the typical characteristics of halogens such as high reactivity and tendency to form salts. Additionally, hydrogen typically forms covalent rather than ionic compounds, further distinguishing it from the halogens.
When a halogen combines with hydrogen, a hydrogen halide molecule is formed. These molecules, such as hydrogen chloride (HCl), consist of a hydrogen atom covalently bonded to a halogen atom. Hydrogen halides are typically gaseous at room temperature and can dissolve in water to form acidic solutions.
Yes, iodine is a halogen element and therefore classified as a halide.
halogenhalogen in group VII
The cast of Halogen Squad - 2013 includes: Windsor Fravel as Hydrogen
Hydrogen is a unique elemnt, it sadd an electron to form the hydride anion in which case it behaves like a halogen. It can lose an electron - get a naked proton, which rapidly attaches to anything in the vicinity, hence formation of acids in aqueous solution when say hydrogen chloride dissolves in water. It also forms single covalent bonds as in hydrogen chloride and methane and many other compounds. So similar to group1, in electron loss but forms covalent bonds group 1 do not in general. Gains an electron like a halogen but these hydrides are reactive and decompose in water.
An alkane. Hence the name alkyl. An alkane is a chain of carbon atoms bonded to each other with single bonds, with hydrogen atoms filling the remainder of the bonds. One hydrogen atom is replaced by a halogen to form an alkyl halide.
F-F Cl-Cl or any other halogen-halogen ;halogen- alkaline metal Na-Cl
Well, honey, a halogen derivative of an alkane is simply an alkyl halide. It's when you replace one or more hydrogen atoms in an alkane with a halogen atom like fluorine, chlorine, bromine, or iodine. So, if you take good ol' methane and swap out a hydrogen for a chlorine, you've got yourself a halogen derivative of an alkane. Easy peasy lemon squeezy.
An example of a covalent compound formed between an element in period 2 and a halogen is hydrogen fluoride (HF). This compound is formed by the sharing of electrons between the hydrogen atom (period 1) and the fluorine atom (halogen).