That's a not part of this curriculum. You have to take a differential volume, and apply newtons cooling law. Taking into account the boundary conditions, you then obtain the mean temperature and temperature distribution. Check other videos on UA-cam, someone must have done it.
unbelievable explanation sir thanks to clear my confusion
Happy to help
6:27 - regarding the equation in purple: why is the 1/r there? is this because cylindrical coordinate system or can you help me understand?
fantastic walk through BTW, thank you very much.
Thanks Lance, you got it, it is because of the cylindrical Polar coordinate system...
perfectly explained thank you
Glad it was helpful, Brian! Take care
Can you please solve for the temperature distribution
That's a not part of this curriculum. You have to take a differential volume, and apply newtons cooling law. Taking into account the boundary conditions, you then obtain the mean temperature and temperature distribution. Check other videos on UA-cam, someone must have done it.