The molecular geometry of AsBr3 is trigonal pyramidal, with the central arsenic atom surrounded by three bromine atoms. The bond angles in AsBr3 are approximately 101 degrees.
The shape would tend to be trigonal pyramidal. An example would be ammonia, NH3.
The bond angle in PH4 is higher than PH3 because PH4 has a tetrahedral molecular geometry with bond angles of about 109.5 degrees, while PH3 has a trigonal pyramidal molecular geometry with bond angles of about 107 degrees. This difference in bond angles is due to the presence of an additional hydrogen atom in PH4 compared to PH3.
The molecular shape is square pyramidal because it has five ligands and one lone pair and the bond angle are 90,<120. Also, it has no dipole moment and the electron group geometry is octahedral.
NH3 has a geometry of a flattened tetrahedron. Each hydrogen atom has 107.8 degrees between them, and a distance of 101.7 pm.
The square pyramidal's bond angkle is 95 degrees hgjhgyuthvjyy,kufgy
The bond angle in POCl3 is approximately 107 degrees. This can be explained by the molecule's structure, which is trigonal pyramidal with one lone pair of electrons on the central phosphorus atom, causing some compression of the bond angles.
It isn't, it's pyramidal.
A trigonal planar molecule such as sulfur trioxide (SO3) or boron trihydride (BH3) has a trigonal planar shape. Trigonal pyramidal molecules such as ammonia (NH3) have bond angle closer to 107 degrees.
The bond angle of PBr5 is 120 degrees. This is because phosphorus pentabromide (PBr5) has a trigonal bipyramidal molecular geometry, where the bromine atoms are arranged around the central phosphorus atom with angles of 120 degrees between them.
The most idealized bond angle would be in CS2, which has a linear molecular geometry with a bond angle of 180 degrees. PF3, SBr2, and CHCl3 have trigonal pyramidal, angular, and tetrahedral geometries, respectively, which deviate from the ideal angles due to lone pair repulsions.
The molecular geometry of AsBr3 is trigonal pyramidal, with the central arsenic atom surrounded by three bromine atoms. The bond angles in AsBr3 are approximately 101 degrees.
half base times height
The shape would tend to be trigonal pyramidal. An example would be ammonia, NH3.
Triginal pyramidal. ~apex
The shape of the ammonia molecule NH3 is trigonal pyramidal, with the nitrogen atom at the apex and the three hydrogen atoms forming a triangular base.
The four electron pairs form a basically tetrahedral shape, but with the angles between the bond pairs slightly smaller than the bond pair to lone pair angle. Ammonia has this shape and the HNH angle is 107 degrees. If you only consider the atoms the shape is called trigonal pyramidal.