![The mid points of two small magnetic dipoles of length $ d $ in end-on positions, are separated by a distance $ x $, \\[\\left( {x d} \\right)\\]. The force between them The mid points of two small magnetic dipoles of length $ d $ in end-on positions, are separated by a distance $ x $, \\[\\left( {x d} \\right)\\]. The force between them](https://www.vedantu.com/question-sets/d8046802-0aa1-4746-9859-04496b8ce3e53063607823225113030.png)
The mid points of two small magnetic dipoles of length $ d $ in end-on positions, are separated by a distance $ x $, \\[\\left( {x d} \\right)\\]. The force between them
![How should the magnetic force between two magnets be calculated effectively? - Physics Stack Exchange How should the magnetic force between two magnets be calculated effectively? - Physics Stack Exchange](https://i.stack.imgur.com/c2L3G.png)
How should the magnetic force between two magnets be calculated effectively? - Physics Stack Exchange
![electromagnetism - Why are there sine and cosine in the magnetic dipole moment (in the torque formula) of a rotating conductor loop? - Physics Stack Exchange electromagnetism - Why are there sine and cosine in the magnetic dipole moment (in the torque formula) of a rotating conductor loop? - Physics Stack Exchange](https://i.stack.imgur.com/f7OVG.png)
electromagnetism - Why are there sine and cosine in the magnetic dipole moment (in the torque formula) of a rotating conductor loop? - Physics Stack Exchange
![The mid points of two small magnetic dipoles of length d in end - on positions, are separated by a distance x , (x >> d) . The force between them is The mid points of two small magnetic dipoles of length d in end - on positions, are separated by a distance x , (x >> d) . The force between them is](https://i.ytimg.com/vi/_VpDtHK4MME/maxresdefault.jpg)
The mid points of two small magnetic dipoles of length d in end - on positions, are separated by a distance x , (x >> d) . The force between them is
![Two magnetic dipoles X and Y are placed at a separation $ d $ , with their axes perpendicular to each other. The dipole moment of Y is twice that of X. Two magnetic dipoles X and Y are placed at a separation $ d $ , with their axes perpendicular to each other. The dipole moment of Y is twice that of X.](https://www.vedantu.com/question-sets/be7e58b1-308f-40c1-b0a2-9b311ad844bc2418117163864745012.png)
Two magnetic dipoles X and Y are placed at a separation $ d $ , with their axes perpendicular to each other. The dipole moment of Y is twice that of X.
![Two magnetic dipoles X and Y are placed at a separation d, with their axes perpendicular to each other. The dipole moment of Y is twice that of X. A particle of Two magnetic dipoles X and Y are placed at a separation d, with their axes perpendicular to each other. The dipole moment of Y is twice that of X. A particle of](https://haygot.s3.amazonaws.com/questions/1614191_ffcdc9b617ca4f28a1e0b2981bbb84dd.png)
Two magnetic dipoles X and Y are placed at a separation d, with their axes perpendicular to each other. The dipole moment of Y is twice that of X. A particle of
![Force between two dipoles kept parallel to each other (Lecture 15) (Dipole Dipole Interaction) - YouTube Force between two dipoles kept parallel to each other (Lecture 15) (Dipole Dipole Interaction) - YouTube](https://i.ytimg.com/vi/wbkmMZkC1Co/maxresdefault.jpg)