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The inductance (in microhenries) of straight nonmagnetic wire in free space is 0.000212h^2, where h is the length of the wire in millimeters and r is the radius of the circular cross-section. Approximate when h is 100 millimeters and r is 0.75 millimeters. (Round your answer to six decimal places.)
Submitted by David B. Sep. 24, 2021 04:55 a.m.
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6 comments
Ashley M.
April 4, 2023
The answer provided is quite detailed and covers the steps for approximating the inductance However the transcription of the video seems to contain some errors, making it difficult to follow the calculation steps Can you clarify the equation for the induc
Jacob C.
June 28, 2023
Its a bit challenging to follow the explanation in the video Could you provide a clearer breakdown of the steps involved in approximating the inductance with the given values for h and r
Kimberly S.
July 19, 2023
the answer seems to go through a step-by-step process, but the transcription is a bit confusing. it would be helpful to have a clearer explanation of how the values of l lh and lr were calculated, and how they were used to approximate the inductance
Taylor S.
September 29, 2023
Whoa, Adi got into the nitty-gritty of solving for the inductance here. But, like, it's a bit hard to follow with the unclear explanation, don't you think?
Riley G.
October 11, 2023
can u break down adis math jargon for the inductance problem in simpler terms
David H.
November 9, 2023
Adis approach seems off – did they mix up the variables when calculating the partial derivatives for l with respect to h and r