V shaped, corner 105o at centered O atom
The cause is the polar character of water molecule.
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
Sulfur dioxide is an example of a molecule that has a tetrahedral arrangement of electron pairs due to its VSEPR geometry, but it is not a tetrahedral molecule. This is because it has a bent molecular shape, with two bonding pairs and one lone pair of electrons around the central sulfur atom.
The H2O molecule has a bent or angular shape due to the arrangement of the two hydrogen atoms and one oxygen atom. This shape is caused by the presence of two lone pairs of electrons on the oxygen atom, which repel the bonding pairs and create a slight angle between the hydrogen-oxygen-hydrogen atoms.
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).
yes it does, because the oxygen contains lone pairs which makes the water molecule a bent geometry shape.
The cause is the polar character of water molecule.
The cause is the polar character of water molecule.
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 shape of a water molecule (H2O) is bent or angular, resembling a letter "V". This occurs due to the two lone pairs of electrons on the oxygen atom, causing the molecule to have a bent molecular geometry.
Sulfur dioxide is an example of a molecule that has a tetrahedral arrangement of electron pairs due to its VSEPR geometry, but it is not a tetrahedral molecule. This is because it has a bent molecular shape, with two bonding pairs and one lone pair of electrons around the central sulfur atom.
The H2O molecule has a bent or angular shape due to the arrangement of the two hydrogen atoms and one oxygen atom. This shape is caused by the presence of two lone pairs of electrons on the oxygen atom, which repel the bonding pairs and create a slight angle between the hydrogen-oxygen-hydrogen atoms.
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.
The water molecule has two pairs of unbonded electrons, also known as lone pairs. These lone pairs are located on the oxygen atom.
In a water molecule, there are two lone pairs of electrons connected to the oxygen. The lone pairs push the hydrogen atoms, creating a bent shape. In CO2, however, there are two double bonds and no lone electrons on the central atom, hence the molecule has a linear shape.
A molecule of hydrogen sulfide (H2S) would have a bent shape due to its molecular geometry. It consists of two hydrogen atoms bonded to a sulfur atom with lone pairs of electrons around the sulfur, causing the molecule to bend.