![34. Dimensional formula of resistance in an electrical circuit, in terms of mass M, length L, time T and current I, would be 21 [ML2T-21 (2) [MLT-11-11 to [ML2T-31-41 (4) [ML2T-31-11 35. 34. Dimensional formula of resistance in an electrical circuit, in terms of mass M, length L, time T and current I, would be 21 [ML2T-21 (2) [MLT-11-11 to [ML2T-31-41 (4) [ML2T-31-11 35.](https://toppr-doubts-media.s3.amazonaws.com/images/1624693/e8da3a82-f3a7-4f4d-8b98-9292858c032a.jpg)
34. Dimensional formula of resistance in an electrical circuit, in terms of mass M, length L, time T and current I, would be 21 [ML2T-21 (2) [MLT-11-11 to [ML2T-31-41 (4) [ML2T-31-11 35.
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![SOLVED: Consider the electrical circuit shown in Figure 1. a) Derive the single mathematical expression that relates the output e, with the input e; in terms of Ri, R2, and L, without SOLVED: Consider the electrical circuit shown in Figure 1. a) Derive the single mathematical expression that relates the output e, with the input e; in terms of Ri, R2, and L, without](https://cdn.numerade.com/ask_images/b5146e71705b4649b834b5ed7d7181e9.jpg)
SOLVED: Consider the electrical circuit shown in Figure 1. a) Derive the single mathematical expression that relates the output e, with the input e; in terms of Ri, R2, and L, without
![SOLVED: Find (in terms of L and C) the frequency of electrical oscillations in a series circuit if R=0 and V=0, but I does not equal 0. (when you tune a radio, SOLVED: Find (in terms of L and C) the frequency of electrical oscillations in a series circuit if R=0 and V=0, but I does not equal 0. (when you tune a radio,](https://cdn.numerade.com/ask_previews/6859fcbe-1593-4d6e-b311-6ff8269f7d63_large.jpg)
SOLVED: Find (in terms of L and C) the frequency of electrical oscillations in a series circuit if R=0 and V=0, but I does not equal 0. (when you tune a radio,
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