600
120 degrees
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.
Trigonal Planar (120 degrees)
CH3 is a trigonal planar and has a hybridization of sp3
The approximate bond angle for a molecule with a trigonal planar shape is 120 degrees.
600
The carbonate ion CO3^2- has a trigonal planar shape. It consists of one carbon atom bonded to three oxygen atoms in a flat, triangular arrangement.
The molecular geometry of boron tribromide (BBr3) is trigonal planar. The boron atom is surrounded by three bromine atoms, creating a trigonal planar shape with bond angles of 120 degrees.
The shape of nitrogen trichloride is planar triangular (Trigonal planar) with bond angles close to 120 degrees.
The molecular shape of HNO3 is trigonal planar. It consists of three regions of electron density around the central nitrogen atom, resulting in a trigonal planar geometry with bond angles of approximately 120 degrees.
BF3 has a trigonal planar molecular geometry according to the VSEPR theory. It consists of three bonding pairs around the central Boron atom, resulting in a flat, trigonal planar shape.
120 degrees
The molecular geometry of BF3 is trigonal planar. It has three bond pairs and no lone pairs, resulting in a planar triangular shape. The bond angle between the three fluorine atoms is approximately 120 degrees.
CO32- has a trigonal planar molecular shape, where the central carbon atom is surrounded by three oxygen atoms. This arrangement results in a symmetrical, flat shape with bond angles of 120 degrees between each atom.
The electronic geometry of C2H4 is trigonal planar, with a bond angle of approximately 120 degrees. The molecular geometry of C2H4 is also planar, with a bond angle of approximately 121 degrees.
trigonal planar