You are very right Mr. Simpson
For this case delta is real, how could I enforce this condition so mathematica undertands it and still gives me the result of the integral in terms of delta and r?
Thank you for your response
Hello all
I am trying to solve the following integral with Mathematica and I'm having some issues with it.
where Jo is a Bessel Function of first kind and order 0. Notice that k is a complex number given by
Where delta is a coefficient.
Due to the complex arguments I'm integrating the...
Hello there
I modified the equation as Tsny suggested, and was trying to use mathematica to solve it. I am getting weird results, unless that I am doing something wrong in mathematica. I know this is not a mathematica forum, but please take a look to my code below, any suggestions would be...
You are very right though, if the flux is decreasing at a constant rate the force will be pointing toward the right all the time. If the force vanishes as the field does, the velocity wont go to zero, but will approach to a terminal(contant) value.
Thank you for pointing that out. I will...
Thank you both TSny and kuruman for your comments. Yeah, I tried putting the equation in Mathematica, but I am not that good at it; it's giving some errors. I would need to go to a Mathematica forum to ask for help on how to properly set the code to solve the equation.
I would expect a...
My question arises from the following problem:
We have a uniform magnetic field into the page, decreasing at a constant rate dB/dt< 0, causing the bar to move to the right. Find the velocity of the bar as a function of the time, and in terms of the known parameters: the resistor R and the...