The molecular structure of HOCF3, according to its Lewis structure, consists of one oxygen atom bonded to one carbon atom, which is then bonded to three fluorine atoms. This forms a trigonal planar shape with the carbon atom at the center and the oxygen and fluorine atoms surrounding it.
The molecular geometry of the BR3 Lewis structure is trigonal planar.
The molecular geometry of the CF3H molecule, based on its Lewis structure, is trigonal pyramidal.
The SO2 molecule has a bent structure according to its Lewis diagram.
The molecular structure of SCN- in terms of its Lewis structure consists of a central sulfur atom bonded to a nitrogen atom and a carbon atom. The sulfur atom has a lone pair of electrons, and there is a triple bond between the sulfur and nitrogen atoms.
The shape of the SO2 molecule, according to its Lewis structure, is bent or V-shaped.
The molecular geometry of the BR3 Lewis structure is trigonal planar.
The molecular geometry of the CF3H molecule, based on its Lewis structure, is trigonal pyramidal.
trigonal pyramidal
Atoms are arranged in molecular compounds in groups.
The SO2 molecule has a bent structure according to its Lewis diagram.
The molecular structure of SCN- in terms of its Lewis structure consists of a central sulfur atom bonded to a nitrogen atom and a carbon atom. The sulfur atom has a lone pair of electrons, and there is a triple bond between the sulfur and nitrogen atoms.
The shape of the SO2 molecule, according to its Lewis structure, is bent or V-shaped.
Lewis structures do not tell you anything about molecular geometry you have to invoke hybridisation argumments or us VSEPR (AXE theory) to make predictions
The molecular structure of BECl is linear, with beryllium at the center and one chlorine atom on each side. In a Lewis structure, beryllium is represented with two valence electrons and each chlorine atom with seven valence electrons. The beryllium atom forms a bond with each chlorine atom, resulting in a total of two bonds and no lone pairs on beryllium.
It should be sp3d. first draw the Lewis structure. then you can see the central S atom has 4 bonding pair and 1 lone pair. then draw molecular orbital. Distribute electron according the bonding and lone pair. the paired electron represent lone pair in Lewis structure. and the other unpaired electron distribute in the molecular orbital represent the number of bonding pair in Lewis structure
The Lewis dot structure for BeCl2 shows beryllium in the center with two chlorine atoms attached to it, each sharing one electron with beryllium. This results in a linear molecular shape with no lone pairs on beryllium.
One way to determine the molecular geometry of a molecule without using a Lewis structure is by using the VSEPR theory. This theory helps predict the shape of a molecule based on the arrangement of its atoms and lone pairs. By considering the number of bonding pairs and lone pairs around the central atom, you can determine the molecular geometry.