a coordinate covalent bond is formed by shearing of pair of electron in which one element work as DONNER and give to another element who works as ACCEPTOR and take one pair of electron to form coordinate covalent bond
example
NH4Cl
a covalen bond is that in which mutual shearing of electron is done
single
A double covalent bond and a coordinate covalent bond.
covalent non-polar because the electronegativity difference between hydrogen and phosphine is very slighthttp://en.wikipedia.org/wiki/Chemical_polarityhttp://en.wikipedia.org/wiki/Electronegativity
the co-ordinate co-valent bond is different in that the bonding pair comes from only one of the atoms called the donor atom. The other atom, the acceptor atom, simply accepts the sharing responsibilities. An example of such a bond is as follows: NH3 + H+ ------> NH3--->H+
coordinate covalent
ozone. One of the bonds between the oxygen atoms is a coordinate covalent bond.
single
A double covalent bond and a coordinate covalent bond.
You think probable to a coordinate covalent bond.
covalent non-polar because the electronegativity difference between hydrogen and phosphine is very slighthttp://en.wikipedia.org/wiki/Chemical_polarityhttp://en.wikipedia.org/wiki/Electronegativity
I think the bonding is covalent as it is between two non-metals
coordinate covalent
the co-ordinate co-valent bond is different in that the bonding pair comes from only one of the atoms called the donor atom. The other atom, the acceptor atom, simply accepts the sharing responsibilities. An example of such a bond is as follows: NH3 + H+ ------> NH3--->H+
it may be a coordinate covalent bond.
In covalent Bonding the atoms involved share the electrons between each other to satisfy their valance shell requirements.
b)a coordinate covalent bond is a covalent bond in which one atom contributes both bonding electrons, In a coordinate covalent bond, the shared electron pair comes from one of the bonding atoms. Once formed, a coordinate covalent bond is like any other covalent bond
No. Although the bonds in H2O are covalent, they are not coordinate covalent bonds.