Here's the question you clicked on:

55 members online
  • 0 replying
  • 0 viewing

OneOwOne

  • 3 years ago

The force of attraction/repulsion applied on two magnets?

  • This Question is Closed
  1. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    When two magnets attract/repel that is due to a force of attraction or repulsion that is applied on BOTH magnet.

  2. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    Isn't that force determined by the strength of both magnets and mass of each?

  3. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    When a magnet (A) having a stronger pole strength than magnet (B) = A stronger of attraction than this setup where we have two (B) magnets. By trying this yourself, you would notice that a stronger force is present. My question is... How is that force being applied on both magnets calculated AND, when they are being attracted/repelled are both of them applying their full potential? Or gradual?

  4. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    @gleem @Mashy

  5. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    @Vincent-Lyon.Fr

  6. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    "When a magnet (A) having a stronger pole strength than magnet (B) = A stronger of attraction than this setup where we have two (B) magnets." Btw is my understanding logical? Due to the experiment I've applied it proved me right so... I think I am.

  7. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    Any ideas anyone?

  8. OneOwOne
    • 3 years ago
    Best Response
    You've already chosen the best response.
    Medals 0

    @Vincent-Lyon.Fr?

  9. Not the answer you are looking for?
    Search for more explanations.

    • Attachments:

Ask your own question

Sign Up
Find more explanations on OpenStudy
Privacy Policy