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A molecule with two bond groups and two lone pairs would have a bent or angular shape. This geometry arises from the repulsion between the lone pairs, which pushes the bond groups closer together. The bond angle is typically less than 109.5 degrees due to the presence of the lone pairs. An example of this molecular geometry is water (H₂O).
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What shape would a molecule two bound groups and two lone pairs have?
The correct answer is: Bent.
What shape would a molecule with two bound groups and two lone pair have?
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).
When shape would a molecule with two bound groups and two lone pairs have?
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.
What shape would a molecule with a two bond groups and two lone pairs have?
A molecule with two bond groups and two lone pairs would have a bent or angular shape. This arrangement is due to the repulsion between the lone pairs, which pushes the bonded atoms closer together. According to the VSEPR theory, the ideal bond angle would be less than 109.5 degrees, typically around 104.5 degrees, as seen in water (H₂O).
What shape would a molecule with two bond groups an two lone pairs have?
A molecule with two bond groups and two lone pairs would have a bent or angular shape. This is due to the repulsion between the lone pairs, which pushes the bond pairs closer together. The ideal bond angle in such a geometry is typically around 104.5 degrees, similar to the geometry of water (H₂O). The arrangement is often described using the VSEPR (Valence Shell Electron Pair Repulsion) theory.
What shape would a molecule two bound groups and two lone pairs have?
The correct answer is: Bent.
What shape would a molecule with two bound groups and two lone pairs have?
The correct answer is: Bent.
What shape would a molecule with two bounds groups and two lone pairs have?
The correct answer is: Bent.
What shape would a molecule with two bound groups and two lone pair have?
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).
When shape would a molecule with two bound groups and two lone pairs have?
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.
What shape would a molecule with two bound groups and two lone pairs have apex?
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.
What shape would a molecule with a two bond groups and two lone pairs have?
A molecule with two bond groups and two lone pairs would have a bent or angular shape. This arrangement is due to the repulsion between the lone pairs, which pushes the bonded atoms closer together. According to the VSEPR theory, the ideal bond angle would be less than 109.5 degrees, typically around 104.5 degrees, as seen in water (H₂O).
What shape would a molecule with two bond groups an two lone pairs have?
A molecule with two bond groups and two lone pairs would have a bent or angular shape. This is due to the repulsion between the lone pairs, which pushes the bond pairs closer together. The ideal bond angle in such a geometry is typically around 104.5 degrees, similar to the geometry of water (H₂O). The arrangement is often described using the VSEPR (Valence Shell Electron Pair Repulsion) theory.
Number of phosphates in DNA molecule with five base pairs?
A DNA molecule with five base pairs would have 5 phosphate groups in its backbone. Each nucleotide in the DNA molecule contains one phosphate group, so a DNA molecule with five base pairs would have a total of 5 phosphate groups in its structure.
What would cause the shape of the molecule to be tetrahedral?
Four atoms bound to a central atom with no lone pairs
What type of bonding around a central atom would result in trigonal planar molecule?
Three groups bound to it with no lone pairs
What shape would a molecule of hydrogen sulfide have?
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.
