Attraction between positive charge and negative charge

In summary, a proton by itself doesn't decay, but when it's combined with other protons, it will decay into helium.
  • #1
darkar
187
0
Opposite charge always attract and same charge repel each other.
Will proton and electron crash on each other? What will happen if they do so?
 
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  • #2
In describing what goes on between a proton and an electron at this level, you have to work with energy levels. The hydrogen atom at its lowest energy is lower in energy than a neutron. As a result, when electrons and protons get close, they form hydrogen atoms.
 
  • #4
my teacher said that the neutron is actually a proton and an electron orbitting it within Planck distance
 
  • #5
garytse86 said:
my teacher said that the neutron is actually a proton and an electron orbitting it within Planck distance

Then your teacher needs to have his/her head examined.

There are several things you can tell this person that leads to indications that this isn't the right model for the neutron:

1. The LOWEST energy level for a proton-electron system is that found in the hydrogen atom. If an electron can get any closer to the proton to form that neutron model, then we would have seen lots and lots of H atom coverting itself into neutrons. This doesn't happen. This is because there's simply no states available for an electron to occupy within the single-electron energy level.

2. A proton has spin of 1/2. An electron has a spin of 1/2. But a neutron ALSO has a spin of 1/2. How does two 1/2's make 1/2? A system consisting of two spin 1/2 can produce a composite system with spin of 0 or 1, but NOT 1/2.

3. Your teacher should know by now not mislead people into thinking that an electron actually have classical "orbits", dispite the recent article in Nature.

Zz.
 
Last edited:
  • #6
The neutron by itself decays thanks to the weak force, the electron itself does not decay thanks to charge conservation, but ... a proton alone ?
 
  • #7
Decay where? I mean, decay is always towards a less energetical state.

Hmm in some sense a proton does not decay, but four protons decay into Helium, with this criteria of my own... should I reshape it?
 

What is the concept of attraction between positive and negative charges?

The concept of attraction between positive and negative charges is based on the fundamental principle of electrostatics, which states that opposite charges attract each other. Positive charges are associated with the presence of protons in an atom or molecule, while negative charges are associated with the presence of electrons. The force of attraction between these opposite charges is directly proportional to the magnitude of the charges and inversely proportional to the distance between them.

How does the attraction between positive and negative charges affect the behavior of matter?

The attraction between positive and negative charges plays a crucial role in determining the behavior of matter. It is responsible for holding atoms together in molecules, as well as binding molecules together to form larger structures such as solids and liquids. It also plays a key role in the movement of electrons in electrical circuits, which is the basis of many technological applications.

What is the role of positive and negative charges in creating electric fields?

Positive and negative charges are essential for the creation of electric fields. When there is a separation of positive and negative charges, an electric field is created between them. This electric field exerts a force on any other charges placed within it, causing them to either attract or repel each other depending on their relative charges. Electric fields are crucial for understanding and predicting the behavior of electrically charged particles.

How does the attraction between positive and negative charges differ from the attraction between two negative charges or two positive charges?

The attraction between positive and negative charges is fundamentally different from the attraction between two negative or two positive charges. In the former, the two opposite charges are attracted to each other, while in the latter, the two similar charges repel each other. This difference is due to the fact that positive and negative charges have opposite electrical properties, while two positive or two negative charges have the same properties.

How does the distance between positive and negative charges affect the strength of their attraction?

The strength of attraction between positive and negative charges is inversely proportional to the distance between them. This means that as the distance between the charges increases, the force of attraction decreases. This relationship is described by Coulomb's law, which states that the force of attraction between two charges is directly proportional to the product of their magnitudes and inversely proportional to the square of the distance between them.

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