HBr is a linear molecule because it only contains two atoms, hydrogen and bromine, arranged in a straight line. It does not have enough atoms to form a trigonal pyramidal geometry.
N2 is a linear molecule. The bond angle is 180o. Since there are only two atoms, this is the only shape that the nitrogen molecule can have.
No it is pyramidal in shape.Electronic geometry is tetrahedral
Trigonal pyramidal. Think of the phosphorus as being at the peak of a pyramid and the three chlorides forming the three corners of the pyramis base.
The electron geometry of NCl3 is trigonal pyramidal (four electron groups around the central nitrogen atom). The molecular geometry of NCl3 is also trigonal pyramidal, as the three chlorine atoms and lone pair of electrons repel each other to form this shape.
Not linear.
Linear, I think.
HBr is a linear molecule because it only contains two atoms, hydrogen and bromine, arranged in a straight line. It does not have enough atoms to form a trigonal pyramidal geometry.
PH3: Trigonal pyramidal CH4: Tetrahedral HClO: Bent N2: Linear CH3NH2: Trigonal pyramidal H2CO: Trigonal planar C2H2: Linear CH3Cl: Tetrahedral HCOOH: Bent HCN: Linear H2O2: Bent
Trigonal pyramidal
NO!! It is described as 'Pyramidal'. The three hydrogen atoms form the three base corners of a pyramid, and the nitrogen forms the 'peak' of the pyramid. The 'lone pair' of electrons lie on the top of the nitrogen.
It has a lone pair.So it is trigonal pyramidal
It is pyramidal in shape.It has a lone pair.
Electron Domain is Tetrahedral Molecular Geometry is Trigonal Pyramidal
The molecular geometry of phosphorus trichloride (PCl3) is trigonal pyramidal. This means that the phosphorus atom is bonded to three chlorine atoms, with the lone pair of electrons creating a pyramidal shape.
Trigonal Pyramidal. It is not trigonal planar because there is one lone pair around the central atom, just like the shape of ammonia.
NF3, or nitrogen trifluoride, is a pyramidal molecule with a lone pair of electrons on the nitrogen atom. This lone pair causes the molecule to have a trigonal pyramidal geometry with bond angles of approximately 107 degrees.