There are 3 bonding pairs of electrons N - H and one lone pair .
The repulsion forces between lone pair -lone pair is > lone pair -bond pair > bond pair - bond pair. So the lone pair causes distortion from a perfect tetrahedron
In nature, nothing. Even a ray of light is bent by gravity.
NH3 is basic in nature because it acts as a Brønsted-Lowry base by accepting a proton (H+) from water, forming the ammonium ion (NH4+) and hydroxide ion (OH-) in solution. The lone pair of electrons on the nitrogen atom in NH3 can readily accept a proton, leading to the formation of OH- ions, which increase the pH of the solution, making it basic.
NH3 is a covalent compound because it is made up of nonmetals (nitrogen and hydrogen), which share electrons to form covalent bonds. It does not contain any metal atoms, so it is not ionic or metallic in nature.
The hybridized orbitals responsible for the bent shape of the water molecule are sp3 hybridized. Two of the hybridized orbitals contain lone pairs of electrons, while the other two form sigma bonds with the hydrogen atoms. This arrangement leads to the bent molecular geometry of water.
No. First of all, NH2- is an ion, not a molecule. Second, it has a bent geometry, similar to that of a water molecule.
Yes, ammonia (NH3) is considered amphoteric because it can act both as a base and as an acid. As a base, it can accept a proton (H+) to form ammonium (NH4+), while as an acid, it can donate a proton in reactions with stronger bases. This dual behavior allows NH3 to participate in various chemical reactions, demonstrating its amphoteric nature.
NH3 is Ammonia, which is not an acid.
Ammonia is NH3 Elemental oxygen, which is diatomic in nature, is O2 However, an oxygen anion is O-2
Ammonia is the scientific name for NH3.
A mineral that can be bent without breaking and will stay bent is said to be malleable. This is one of the main properties of metals.
NH3-Ammonia
NH3 is known as ammonia.