In the replication of DNA Thymine bonds with cytosine.
single replacement reaction
There are 3 unpaired electrons in an isolated nitrogen atom, the nitrogen molecule has none.
Nitric oxide (NO) is an example of a molecule with an odd electron. It has one unpaired electron in its molecular orbital diagram, making it a radical.
Yes, as it shares its two unpaired electrons with the two hydrogen atoms.
Each tRNA molecule contains three bases called an anticodon. The tRNA anticodons are complementary to specific mRNA codons. This is how the amino acids are placed in the proper order on the ribosome.
In the NO2 molecule the nitrogen atom has a single unpaired electron. The molecule will tend to dimerise so that this unpaired electron can be paired with another to form the N2O4 molecule.
Anticodon
Nitrogen molecule does not contain any unpaired electron in its molecular orbitals. Unpaired electron is needed to keep up the mechanism of burning.
I was looking for this too. It's called the *anticodon* (:
A stable radical is a radical that is not changing. A radical is a molecule or atom that has an unpaired electron.
Answer 1) O2 molecule has two unpaired electrons which is only proved by Molecular orbitals theory (M.O.T). the M.O.T may be checked in any standard book of Inorganic chemistry.Answer 2) If you examine the orbital diagram for dioxygen, it contains a SOMO (Singly-Occupied Molecular Orbital) with 2 unpaired electrons. Dinitrogen does not have this. These unpaired electrons contribute to magnetism.
single replacement reaction
There are 3 unpaired electrons in an isolated nitrogen atom, the nitrogen molecule has none.
Nitric oxide (NO) is an example of a molecule with an odd electron. It has one unpaired electron in its molecular orbital diagram, making it a radical.
A radical is an atom, molocule, or ion that has an unpaired valence of electrons or an open electron shell. A molecule is a group of two or more atoms held together by chemical bonds.
Yes, as it shares its two unpaired electrons with the two hydrogen atoms.
It is a polar covalent bond. This is due to unshared and unpaired electrons around the oxygen atom.