The size of halogens or the group 17 elements is small.
Examples: sulfur, nitrogen, halogens.
All molecules are nuetrally charged.....or else they wouldn't be molecules. Being a diatomic molecule has nothing to do with it.
the reactivity of halogens goes on decreasing as we go down the group, because of increasing in atomic size of the respective element.
Group VII elements are halogens. Halogens exist as diatomic covalent molecules (the 2 atoms within each molecule are held together by strong covalent bond) and they are very reactive non-metals. Physical properties: On going down the group from Fluorine to Astatine, - the melting and boiling points of the halogens increase. Chlorine is a gas, bromine is a liquid and iodine is a solid at room temperature. - the colour of the halogens become darker. Chlorine is greenish-yellow, bromine is reddish-brown and iodine is purplish-black. Chemical properties: - Halogens react with most metals to form salts called halides. - The reactivity of halogens decreases down the group. Fluorine is the most reactive. This is because the atomic size of the halogens increases down the group. It becomes more difficult for the nucleus to attract an electron into the valence shell to become an ion. - A more reactive halogen will displace a less reactive halogen from an aqueous solution.
Group 17 (known as Halogens)
It's exactly the same size as a water molecule or an ice molecule.
Yes it does... Due to the carbons being surrounded by 5 halogens which are all delta minus... So it does qualify as permanent dipole molecule.
Examples: sulfur, nitrogen, halogens.
There are a few possibilities:- H2, F2, Cl2, Br2, I2 mixed halogens such as ClBr
All molecules are nuetrally charged.....or else they wouldn't be molecules. Being a diatomic molecule has nothing to do with it.
the reactivity of halogens goes on decreasing as we go down the group, because of increasing in atomic size of the respective element.
Molecule size changes of the ozone. When it is being depleted the most.
Group VII elements are halogens. Halogens exist as diatomic covalent molecules (the 2 atoms within each molecule are held together by strong covalent bond) and they are very reactive non-metals. Physical properties: On going down the group from Fluorine to Astatine, - the melting and boiling points of the halogens increase. Chlorine is a gas, bromine is a liquid and iodine is a solid at room temperature. - the colour of the halogens become darker. Chlorine is greenish-yellow, bromine is reddish-brown and iodine is purplish-black. Chemical properties: - Halogens react with most metals to form salts called halides. - The reactivity of halogens decreases down the group. Fluorine is the most reactive. This is because the atomic size of the halogens increases down the group. It becomes more difficult for the nucleus to attract an electron into the valence shell to become an ion. - A more reactive halogen will displace a less reactive halogen from an aqueous solution.
The radius of a glycerol molecule is about 4.35 angstroms.
Can a water molecule size 54hz be stable for a period of time?
Halogens have maximum effective nuclear charge. So the high number of protons in the nucleus attract electrons and thus the size of the atomic radii is the smallest.
Group 17 (known as Halogens)