Is the 1st q equal to the second q? The 1st q is between T(infinity,1) and T(infinity,2) and the 2nd q is between T(infinity,1) and Ts2. Thank you in advance for the response.
If the q's are taken at different locations/temperatures, then yes, they will be different. They will have different temperatures and different resistances.
Is the last equation on the last slide correct? I think the numerator for the first term should be T(infinity,1)-T(infinity,2) instead of T(infinity,1)-T(s,2)? Thank you.
The last equation is correct. We are trying to find T(s,2), so we are using T(infinty,1) and T(s,2) and only the two resistances between those temperatures.
MADAM -- EXCELLENT ==THIS IS THE BEST LECTURE ON THIS TOPIC --THANK U
You should probably use a different label for R(total) for the whole circuit and R(total) for partial circuit to avoid any confusion.
Is the 1st q equal to the second q? The 1st q is between T(infinity,1) and T(infinity,2) and the 2nd q is between T(infinity,1) and Ts2. Thank you in advance for the response.
If the q's are taken at different locations/temperatures, then yes, they will be different. They will have different temperatures and different resistances.
@@LearnChemE Thank you very much, it was a great video
Is the last equation on the last slide correct? I think the numerator for the first term should be T(infinity,1)-T(infinity,2) instead of T(infinity,1)-T(s,2)? Thank you.
The last equation is correct. We are trying to find T(s,2), so we are using T(infinty,1) and T(s,2) and only the two resistances between those temperatures.
Why ragistance heat in any circuit. ...Please help me without heating ragistance to complete my circuit. 90volt AC to 5 volt dc
great explanation
Nice!
im glad I don't have this lady as my prof lol