Electrons and simple/complex molecules.

In summary, the conversation discusses the possibility of all electrons stopping their motion and the effect this would have on molecules. It is mentioned that in neutron stars, electrons and protons combine to form neutrons due to their strong gravitational pull, resulting in incredibly dense matter. There is also a comment about the conservation of spin in this process.
  • #1
heartless
220
2
Hello, I was just taking a shower when this question came upon my mind, what would happen if all the electrons stopped their motion?
And, I don't know, but when molecules are created, wouldn't it cut off a path of an electron from the side where atoms have been combined?
 
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  • #2
anyone?

10characters
 
  • #3
your question is nonsensical because electrons don't cruise around atoms and molecules as planets orbit stars for example. that's probably why nobody answered your question.
 
  • #4
maybe the answer he's looking for is this...

In neutron stars, their own gravity is so large that it overcomes the forces keeping protons/electrons apart and the electrons/protons combine to form neutrons. You end up with a big soup of neutrons...no electron clouds so there's almost no "empty" space...you end up with some of the most dense matter in the universe save from black holes.
 
  • #5
topside said:
maybe the answer he's looking for is this...

In neutron stars, their own gravity is so large that it overcomes the forces keeping protons/electrons apart and the electrons/protons combine to form neutrons.

Does it really? Your spin isn't conserved. 1/2 +/- 1/2 does not equal to 1/2.

Zz.
 
Last edited:

1. What are electrons and how do they contribute to the structure of molecules?

Electrons are negatively charged particles that orbit the nucleus of an atom. They play a crucial role in the formation of molecules by bonding with other atoms to create chemical bonds. These bonds are responsible for the stability and shape of molecules.

2. How are simple molecules different from complex molecules in terms of their electron structure?

Simple molecules, also known as diatomic molecules, consist of two atoms bonded together and have a relatively simple electron structure. On the other hand, complex molecules contain more than two atoms and have a more intricate electron structure due to the presence of multiple chemical bonds.

3. What is the relationship between the number of electrons and the stability of a molecule?

The stability of a molecule is directly related to the number of electrons it has. Generally, molecules with a full outer electron shell, known as a "stable octet," are more stable than those with incomplete outer shells. This is because a full outer shell makes the molecule less likely to react with other atoms and break apart.

4. How do electrons contribute to the properties of molecules?

Electrons are responsible for the chemical and physical properties of molecules. The arrangement and number of electrons determine the polarity, reactivity, and bonding behavior of molecules. For example, molecules with polar bonds, where electrons are shared unevenly, will have different properties than nonpolar molecules with evenly shared electrons.

5. Can electrons be shared between molecules?

Yes, electrons can be shared between molecules through a type of bonding called covalent bonding. In covalent bonds, atoms share one or more electrons to create a stable outer electron shell. This allows for the formation of larger, more complex molecules and is essential for many biological processes.

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