Energy liberation in ionic bonding

In summary, when the ionic compound NaCl forms from the elements sodium and chlorine, energy is liberated due to the strong attraction between the Na+ and Cl- ions. This energy is a result of the energy needed to remove an electron from Na and the energy given off by Cl after taking an electron. As the ions get closer, they are attracted by a force over a distance, and this energy is conserved even when they stop moving.
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Homework Statement


If removing electrons from atoms requires energy, and adding electrons to atoms usually liberates energy, then why is energy liberated when the ionic compound NaCl forms from the elements sodium and chlorine?

Homework Equations


None

The Attempt at a Solution


My solutions manual says: "Once Na+ and Cl- have been made, the attraction between them is very strong, resulting in the liberation of energy."

I do not understand why the strong attraction between the ions would liberate energy. My book relates it to the emission of a photon when electrons move from higher to lower energy levels, but this just confuses me even more.
 
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  • #2
First thing is to look up the energy needed for liberating a e from Na.
And the energy that Cl gives after taking an electron.

Secondly what happens when two charged ions get closer to each other? Meaning that they are attracted by a force over a distance. (HINT E=F*x)

If ultimately they stop what happens to that energy? Where does it all go?

Energy will be conserved no matter what!
 

1. What is energy liberation in ionic bonding?

Energy liberation in ionic bonding refers to the release of energy that occurs when two oppositely charged atoms, known as ions, come together to form a bond. This energy is released as a result of the attraction between the positively and negatively charged ions.

2. How does energy liberation occur in ionic bonding?

Energy liberation in ionic bonding occurs when the positively charged ion, known as a cation, and the negatively charged ion, known as an anion, come close enough to each other that their opposite charges are attracted to one another. This results in the formation of a bond and the release of energy.

3. What is the role of energy liberation in ionic bonding?

The role of energy liberation in ionic bonding is to stabilize the newly formed bond between the ions. This released energy allows the ions to achieve a lower energy state, making the bond more stable. Without this energy release, the bond would not form or would be weak and unstable.

4. How does the amount of energy liberated in ionic bonding affect the strength of the bond?

The amount of energy liberated in ionic bonding directly affects the strength of the bond. The more energy released, the stronger the bond will be. This is because the released energy allows the ions to come closer together and form a more stable bond.

5. Can energy liberation in ionic bonding be reversed?

Yes, energy liberation in ionic bonding can be reversed. This can occur through the process of breaking the bond, known as dissociation. When the bond is broken, the ions are separated and the released energy is absorbed. This process is often seen in the dissolution of ionic compounds in water.

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