Question
The chemical potential energy of bond A is greater than the chemical potential energy
of bond B . Which statement best explains this observation? (1 point)
The atoms in bond A have fewer bonds between them than the atoms in bond B .
The atoms in bond A are larger than the atoms in bond B .
The atoms in bond A are held more tightly together than the atoms in bond B .
The atoms in bond A are farther apart than the atoms in bond B .
of bond B . Which statement best explains this observation? (1 point)
The atoms in bond A have fewer bonds between them than the atoms in bond B .
The atoms in bond A are larger than the atoms in bond B .
The atoms in bond A are held more tightly together than the atoms in bond B .
The atoms in bond A are farther apart than the atoms in bond B .
Ask by Black Wheeler. in the United States
Jan 22,2025
Upstudy AI Solution
Tutor-Verified Answer
Answer
The atoms in bond A are farther apart than the atoms in bond B.
Solution
The chemical potential energy of a bond is related to the bond strength. A higher chemical potential energy indicates that the bond is weaker and requires less energy to break. When atoms are farther apart, the bond between them is typically weaker because the electrostatic attractions are less strong compared to bonds where atoms are held closer together.
Correct Statement:
- The atoms in bond A are farther apart than the atoms in bond B.
This explains why bond A has a greater chemical potential energy compared to bond B.
Answer:
The atoms in bond A are farther apart than the atoms in bond B.
The atoms in bond A are farther apart than the atoms in bond B.
Answered by UpStudy AI and reviewed by a Professional Tutor
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Simplify this solution Mind Expander
The atoms in bond A have fewer bonds between them than the atoms in bond B. In chemical bonding, the potential energy is influenced by the number of bonds between atoms. Fewer bonds typically mean that the atoms are less stabilized in a lower energy state, leading to higher potential energy.
The atoms in bond A are held more tightly together than the atoms in bond B. If bond A is stronger, then it implies that the atoms are more closely bonded, which requires more energy to break them apart. Therefore, stronger bonds correlate with lower potential energy, while weaker bonds correlate with higher potential energy. So, if bond A has higher potential energy, it likely indicates that it has fewer bonds or weaker interactions compared to bond B.
