Understanding Chemical Bonding: Why Last Sublevel Electrons Matter

In summary, the conversation is discussing the concept of chemical bonds and the role of valence electrons in determining the number of bonds an element can form. The speaker mentions that their book states that sp hybridized carbon should only make three bonds instead of four, despite needing four electrons to complete its outer level. The other participant disagrees and points out that carbon is usually a sp3 hybrid and thus must make four bonds. The conversation also brings up the concept of valence bond theory and whether bonds are formed only in the outer half-filled orbitals.
  • #1
scientifico
181
0
hello, to preview chemical bonds must be considered only the electrons in the last sublevel and not the electrons in all the level?
for example my book talking of carbon sp hybridation say that we shouldn't expect it make 4 bounds but only 3, why if the carbon need exactly 4 electron to complete the level?

thanks!
 
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  • #3
What do you mean? Carbon is usually a sp3 hybrid. Thus it must make four bonds. You also said that you need to consider the outer sublevel. What do you mean?
 
  • #4
ZealScience said:
Carbon is usually a sp3 hybrid. Thus it must make four bonds.

While in a way it can be true that sp3 is the most common carbon hybridization, it doesn't matter. When it is sp or sp2 it makes four bonds as well.
 
  • #5
Why in Wikipedia i read The valence bond theory would predict, based on the existence of two half-filled p-type orbitals, that C forms two covalent bonds ?
According to the normal model Carbon need 4 electrons to complete the last level so is it wrong use this model?
Do the bond are formed ONLY in the more external half-filled orbitals ?

thank you
 

1. Why do last sublevel electrons matter in chemical bonding?

Last sublevel electrons play a crucial role in determining the chemical properties of an element. These electrons are involved in forming bonds with other atoms, which ultimately determines the overall reactivity and behavior of the element.

2. How do last sublevel electrons affect the type of bond formed?

The number and arrangement of last sublevel electrons determine the type of bond that will be formed. For example, elements with one or two last sublevel electrons tend to form ionic bonds, while elements with four or more tend to form covalent bonds.

3. What happens to last sublevel electrons when a chemical bond is formed?

During chemical bonding, last sublevel electrons are either gained, lost, or shared between atoms. This results in a more stable arrangement of electrons, which is energetically favorable for the atoms involved.

4. Can the number of last sublevel electrons affect the physical properties of a substance?

Yes, the number of last sublevel electrons can affect the physical properties of a substance. For example, elements with a full last sublevel tend to be more stable and less reactive, while elements with partially filled last sublevels tend to be more reactive and have higher melting and boiling points.

5. How does the concept of last sublevel electrons relate to the periodic table?

The periodic table is organized based on the number of last sublevel electrons an element has. Elements in the same column have the same number of last sublevel electrons, which results in similar chemical properties. This allows for easy prediction of an element's chemical behavior based on its position in the periodic table.

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