antonio ate abooger
No, a bond in which one atom contributes both bonding electrons is called a coordinate covalent bond, not a polyatomic covalent bond. A polyatomic molecule refers to a molecule that consists of more than two atoms bonded together.
In a covalent bond, the electrons used are typically the valence electrons of the atoms involved. These are the outermost electrons. Each atom contributes one or more valence electrons to form a shared pair in the bond.
single
A covalent bond involves the sharing of electrons between atoms. Each atom contributes one or more electrons to the bond, which are shared between the participating atoms. The number of electrons shared in a covalent bond depends on the atoms involved and the type of bond being formed.
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+
No, a bond in which one atom contributes both bonding electrons is called a coordinate covalent bond, not a polyatomic covalent bond. A polyatomic molecule refers to a molecule that consists of more than two atoms bonded together.
In a covalent bond, the electrons used are typically the valence electrons of the atoms involved. These are the outermost electrons. Each atom contributes one or more valence electrons to form a shared pair in the bond.
single
A covalent bond involves the sharing of electrons between atoms. Each atom contributes one or more electrons to the bond, which are shared between the participating atoms. The number of electrons shared in a covalent bond depends on the atoms involved and the type of bond being formed.
covalent bond
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+
In a covalent bond, two atoms share a pair of electrons, whereas in a coordinate covalent bond, one atom provides both electrons in the shared pair. Coordinate covalent bonds are a type of covalent bond where one atom donates both electrons to the bond.
An ionic bond is formed when one atom donates one or more electrons to another atom. A covalent bond does not involve a transfer of electrons, it involves sharing electrons.
The transfer of an electron from one atom to another results in an ionic bond.
This type of covalent bond is known as a dative or coordinate covalent bond. It forms when one atom shares both electrons in the bond with another atom, which acts as the electron acceptor.
Coordinate covalent bond formation is a process in which one atom provides both electrons for the bond, rather than each atom individually contributing one electron. One atom donates a lone pair of electrons to the other atom, resulting in the formation of a shared pair of electrons and the bond.
The electrons can be shared equally (covalent bond). The electrons can be shared but one atom provides those electrons and the other provides none (dative or coordinate covalent bond). The electrons can be donated by one and accepted by the other atom (ionic bond).