Nitrogen trifluoride is a planar molecule. The nitrogen atom is directly bonded with three fluorine atoms on the same plane. According to the VSEPR theory, it has a bond angle of 120 degrees.
I think there is confusion with boron trifluoride.
The actual measured bond angle of NF3 is 102.50
In VSEPR theory (Valence shell electron pair theory) the number of electron pairs around the nitrogen are counted and there are four. If all of pairs were identical as in methane for instance, then the bond angle would be the tetrahedral angle of 109.5 0 however the lone pair decreases the other angles slightly
The bond angle of nitrogen trifluoride (NF3) is around 107 degrees. This is due to the lone pair of electrons on the nitrogen atom that repels the fluorine atoms, causing a slight compression in the bond angles compared to the ideal tetrahedral angle of 109.5 degrees.
The bond angle of nitrogen dioxide is approximately 134 degrees.
The bond angle for NH4+ is approximately 109.5 degrees, which is close to the ideal tetrahedral angle due to the four bonding pairs of electrons around the central nitrogen atom.
NOCl has a bent molecular shape due to the lone pairs on the nitrogen atom. The bond angle between the N-O bond and the N-Cl bond is approximately 117 degrees.
The bond angle of NCl3 is approximately 107 degrees. This is due to the lone pair of electrons on nitrogen causing repulsion and pushing the chlorine atoms closer together.
The bond angle of NBr3 is approximately 107 degrees. This is because the nitrogen atom has a lone pair of electrons that repels the bonding electron pairs, reducing the bond angle from the ideal 120 degrees for a trigonal planar arrangement.
The bond angle of nitrogen dioxide is approximately 134 degrees.
The bond angle for NH4+ is approximately 109.5 degrees, which is close to the ideal tetrahedral angle due to the four bonding pairs of electrons around the central nitrogen atom.
NOCl has a bent molecular shape due to the lone pairs on the nitrogen atom. The bond angle between the N-O bond and the N-Cl bond is approximately 117 degrees.
The bond angle of NCl3 is approximately 107 degrees. This is due to the lone pair of electrons on nitrogen causing repulsion and pushing the chlorine atoms closer together.
The bond angle of NBr3 is approximately 107 degrees. This is because the nitrogen atom has a lone pair of electrons that repels the bonding electron pairs, reducing the bond angle from the ideal 120 degrees for a trigonal planar arrangement.
Nitrogen can form three covalent bods.An example is ammonia (NH3) with the bond angle 106,7o.
The bond angle for NICl2 is approximately 180 degrees. This is because the molecule has a linear geometry, with the two chlorine atoms positioned on opposite sides of the central nitrogen atom.
The bond angle in NOF would be approximately 120 degrees. This is because the nitrogen atom is bonded to the oxygen and fluorine atoms, resulting in a trigonal planar molecular geometry with equal bond angles.
The bond angle of NO2- is approximately 134 degrees. This is because the nitrogen atom is surrounded by two oxygen atoms, causing repulsion that results in the bond angle being less than the ideal 120 degrees of a trigonal planar arrangement.
134.3o. It is a bent molecule, but because of the additional electron pairs on the O atoms, the bond angle is deviated from 120o.
The bond angle in hydrogen cyanide (HCN) is approximately 180 degrees. This is because the hydrogen and carbon atoms are both attached to the central nitrogen atom in a linear fashion.
The angle around nitrogen in ammonium (NH4+) is approximately 109.5 degrees, which is consistent with the tetrahedral geometry of the molecule.