Comparing Forces on Proton and Electron Near a Point Charge

In summary, the question asks about the comparison of magnitudes and directions of forces acting on a proton and an electron when placed equidistant from a point charge. The answer lies in the type of charge and the distance between the charges, not the physical size. The acceleration of the proton may be less due to its higher inertia, but that is not relevant to the question.
  • #1
Aprilshowers
14
0
I am studying Physics, which I can usually understand, but the chapter
on Electricity is totally confusing to me. Can anyone help with this
question:
At different times, a proton and electron are placed equidistant from a
point charge. How do the magnitudes and directions of the forces acting
on them compare? Why?

Thanks
 
Physics news on Phys.org
  • #2
If you put a charged particle in an electric field, what determines the direction of the force on that charged particle? Does it matter if the charge is positive or negative? How does the charge on the proton compare to the charge on the electron?
 
  • #3
well, obviously they will move in opposite directions due to equal but opposite charge. However, the proton, being much heavier, will move slower as teh same force on a particle with more inertia will have less effect.
 
  • #4
Aprilshowers said:
I am studying Physics, which I can usually understand, but the chapter
on Electricity is totally confusing to me. Can anyone help with this
question:
At different times, a proton and electron are placed equidistant from a
point charge. How do the magnitudes and directions of the forces acting
on them compare? Why?
The physical size (volume) of the charge does not matter. All charges act as though they were point charges located at their centres (the geometrical centre of charge, that is). What matters is the type of charge (+ or -) and the distance between the centres of the charges. Does that help you compare the direction and magnitude of the forces?

AM
 
  • #5
The acceleration of a proton would be less than that of an electron, but that isn't what it is asking for.
 

FAQ: Comparing Forces on Proton and Electron Near a Point Charge

What is the difference between a proton and an electron?

Protons and electrons are subatomic particles that make up an atom. Protons have a positive charge, while electrons have a negative charge. Protons have a much larger mass than electrons.

How do protons and electrons interact with each other?

Protons and electrons are attracted to each other due to their opposite charges. This attraction holds the electrons in orbit around the nucleus of an atom, forming a stable structure.

Can protons and electrons be created or destroyed?

Protons and electrons cannot be created or destroyed, but they can be transformed into other particles, such as neutrons. This transformation usually occurs in nuclear reactions.

What is the charge of a neutral atom?

A neutral atom has an equal number of protons and electrons, therefore the positive and negative charges cancel out, resulting in a net charge of zero.

How are protons and electrons used in technology?

Protons and electrons are used in a variety of technologies, such as in the creation of electricity, in medical imaging equipment, and in particle accelerators for scientific research.

Similar threads

Electron bound to proton by gravity
Replies
3
Views
822
Work to move electron/proton between the plates of a charged capacitor?
Replies
22
Views
3K
How does a simple circuit work?
Replies
12
Views
583
What is the correct velocity of an electron in a bound orbit around a proton?
Replies
2
Views
1K
How can the force of a normal reaction be electromagnetic?
Replies
7
Views
2K
An electron & a proton are each placed in an electric field
Replies
1
Views
2K
Force between two charged particle beams -- proton and electron beams
Replies
3
Views
1K
Solve Columb's Law Problem: Helium Nucleus & Proton Acceleration
Replies
1
Views
874
Confused about direction of electric field
Replies
7
Views
2K
Electron-Proton Atoms in a Unique Universe: Could They Exist?
Replies
6
Views
1K

Hot Threads

Recent Insights

Back
Top