The correct answer is: Bent.
The correct answer is: Bent.
A molecule with two bonded groups and two lone pairs will have a bent or V-shaped geometry. The apex of the molecule will be where the two bonded groups meet, causing the lone pairs to be directed away from each other. This geometry is characteristic of molecules with a steric number of four and a tetrahedral electron geometry.
The shape of the SO2 molecule is bent or angular due to the presence of two lone pairs on the sulfur atom. The sulfur atom is bonded to two oxygen atoms through double bonds, resulting in a trigonal planar molecular geometry.
No, the shape of O2F2 is linear, whereas the shape of H2O2 is bent. This is due to the difference in the numbers of lone pairs and bonded pairs of electrons around the central atom in each molecule.
Lone pairs in p orbitals can affect the molecular geometry of a compound by influencing the bond angles and overall shape of the molecule. The presence of lone pairs can cause repulsion between electron pairs, leading to distortions in the molecule's geometry. This can result in deviations from the ideal bond angles predicted by the VSEPR theory, ultimately affecting the overall shape of the molecule.
The correct answer is: Bent.
The correct answer is: Bent.
A molecule with two bound groups and two lone pairs would have a bent or V-shape molecular geometry. This arrangement results in a bond angle less than 180 degrees between the two bound groups. An example of such a molecule is water (H2O).
A molecule with two bound groups and two lone pairs would have a bent or angular shape. This geometry arises from the repulsion between the lone pairs, which occupy more space than the bonding pairs, resulting in a bond angle that is typically less than 109.5 degrees. An example of such a molecule is water (H₂O), where the two hydrogen atoms are bonded to the oxygen atom while the two lone pairs influence the overall shape.
A molecule with two bonded groups and two lone pairs will have a bent or V-shaped geometry. The apex of the molecule will be where the two bonded groups meet, causing the lone pairs to be directed away from each other. This geometry is characteristic of molecules with a steric number of four and a tetrahedral electron geometry.
linear
yes it does, because the oxygen contains lone pairs which makes the water molecule a bent geometry shape.
Because they push the bonding pairs down. For example in a water molecule, it has 2 lone pairs which push the 2 bonding pairs down to form a V-shaped molecule. Hope this helps
The lone pairs in a water molecule cause it to have a bent or angular shape. This shape is due to the repulsion between the lone pairs and the bonded pairs of electrons around the oxygen atom, resulting in a bond angle of approximately 104.5 degrees.
The factors affecting the shape of the molecules are the bonded e and the lone pairs of electrons
The shape of the SO2 molecule is bent or angular due to the presence of two lone pairs on the sulfur atom. The sulfur atom is bonded to two oxygen atoms through double bonds, resulting in a trigonal planar molecular geometry.
The shape of this molecule is Trigonal Planar. this is because it has no lone pairs of electrons so it maintains a 2D shape.