0
Valence electron pairs will move as far apart from each other as possible. (Apex)
What else can I help you with?
Can the VSEPR theory be used to predict the shapes of all molecule?
no, not all molecules obey the VSEPR theory, there is an exeption considered for the SIO2 molecules which obeys not the VSEPR theory
What does the VESPR theory help predict?
The VSEPR theory helps predict the shapes of molecules based on the arrangement of electron pairs around the central atom. It allows us to determine the bond angles and overall geometry of a molecule, which in turn influences its physical and chemical properties.
What is kept as far apart as possible as molecules adjust their shapes according to the VSEPR theory?
Electron pairs are kept as far apart as possible as molecules adjust their shapes according to the VSEPR (Valence Shell Electron Pair Repulsion) theory. This theory helps predict the geometry of molecules by minimizing the repulsion between electron pairs in the molecule's valence shell.
What does vsepr theory tell us about a molecule?
VSEPR predict the geometry of a chemical molecule.
A theory that predicts some molecular shapes based on the idea that pairs of valence electrons surrounding an atom repel each other?
VSEPR theory predicts molecular shapes by considering the electron pairs in the outer shell of an atom and their repulsions. It suggests that electron pairs arrange themselves to minimize repulsion, leading to specific molecular geometries. The theory is helpful in understanding the shapes of molecules and predicting their properties.
Can the VSEPR theory be used to predict the shapes of all molecule?
no, not all molecules obey the VSEPR theory, there is an exeption considered for the SIO2 molecules which obeys not the VSEPR theory
Why do Molecules adjust their shapes in vsepr theory?
Molecules adjust their shapes in VSEPR theory to minimize electrostatic repulsion between electrons and achieve the most stable arrangement. This theory helps to predict the molecular geometry by considering the number of electron pairs around the central atom and their repulsions. The shapes are adjusted to have the maximal distance between electron pairs, resulting in the most stable and energetically favorable arrangement.
What does the VESPR theory help predict?
The VSEPR theory helps predict the shapes of molecules based on the arrangement of electron pairs around the central atom. It allows us to determine the bond angles and overall geometry of a molecule, which in turn influences its physical and chemical properties.
What does VSEPR. Theory describe?
The correct answer is: Why molecules have different shapes.
What describes VSEPR theory?
The correct answer is: Why molecules have different shapes.
Can the chaos theory predict hurricanes?
No; chaos theory is more useful to explain why hurricanes CANNOT be predicted.
What is kept as far apart as possible as molecules adjust their shapes according to the VSEPR theory?
Electron pairs are kept as far apart as possible as molecules adjust their shapes according to the VSEPR (Valence Shell Electron Pair Repulsion) theory. This theory helps predict the geometry of molecules by minimizing the repulsion between electron pairs in the molecule's valence shell.
What are the limitations of valence bond theory?
Valence bond theory has limitations as it provides a limited view of molecular bonding, especially when applied to complex molecules. It does not easily explain the molecular geometry and properties of molecules accurately as it assumes fixed bond angles and shapes. Additionally, it does not account for molecular orbitals and delocalized bonding in a comprehensive manner.
What does vsepr theory tell us about a molecule?
VSEPR predict the geometry of a chemical molecule.
What did bohr's theory help explain?
atoms combine to form molecules
A theory that predicts some molecular shapes based on the idea that pairs of valence electrons surrounding an atom repel each other?
VSEPR theory predicts molecular shapes by considering the electron pairs in the outer shell of an atom and their repulsions. It suggests that electron pairs arrange themselves to minimize repulsion, leading to specific molecular geometries. The theory is helpful in understanding the shapes of molecules and predicting their properties.
What did Friedvich Hund contribute to atomic theory?
Friedrich Hund was a German physicist known for his work on understanding atomic structure, particularly the arrangement of electrons within atoms. He developed the "Hund's rules," which describe how electrons fill orbitals in atoms and molecules. These rules helped to explain and predict the behavior of electrons in atoms, advancing our understanding of atomic theory.
