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Let's say I have a magnetic ball within a solenoid that has current passing through it. How would I calculate the magnetic force on the ball?
Calculating Magnetic Force on an Object in a Solenoid?
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To calculate the magnetic force on a ball within a solenoid, one must consider the ball's material properties, particularly its magnetic permeability, and whether it is ferromagnetic or a permanent magnet. The magnetic field inside the solenoid is constant and can be significantly enhanced by inserting a highly permeable core, such as iron. When the current is turned off, the magnetic force disappears, and the ball will return to its initial position. If the current is activated with the iron core at rest just below the solenoid, the core will be pulled into the solenoid due to the magnetic attraction. Understanding these principles is essential for accurately calculating the force in Newtons acting on the object within the solenoid.
I'm thinking about the following problem. I have an electrified fluid with a constant charge density, Q, within the fluid. Will this necessarily yield a surface charge?
Would I have to compute it by looking at the displacement fields on either side of the interface? Would it change if the bulk charge within the fluid remains constant?
This is from Griffiths' Electrodynamics, 3rd edition, page 352.
I am trying to calculate the divergence of the Maxwell stress tensor. The tensor is given as ##T_{ij} =\epsilon_0 (E_iE_j-\frac 1 2 \delta_{ij} E^2)+\frac 1 {\mu_0}(B_iB_j-\frac 1 2 \delta_{ij} B^2)##. To make things easier, I just want to focus on the part with the electrical field, i.e. I want to find the divergence of ##E_{ij}=E_iE_j-\frac 1 2 \delta_{ij}E^2##.
In matrix form, this tensor should look like this...
Please can anyone either:-
(1) point me to a derivation of the perpendicular force (Fy) between two very long parallel wires carrying steady currents utilising the formula of Gauss for the force F along the line r between 2 charges?
Or alternatively (2) point out where I have gone wrong in my method?
I am having problems with calculating the direction and magnitude of the force as expected from modern (Biot-Savart-Maxwell-Lorentz) formula.
Here is my method and results so far:-
This...
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