1. Using the 500 2 theoretical resistance, the 4.1 mH inductance, and the 6V source, compute for the theoretical voltages across the resistor and inductor for 15 kHz and 70 kHz. Show the step-by-step computation. Express the voltages in polar form. 2. Using the 500 Q theoretical resistance, 220NF capacitance, and the 6V source, compute for the theoretical voltages across the resistor and capacitor for 600 Hz and 1800 Hz. Show the step-by-step computation. Express the voltages in polar form.

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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1. Using the 500 2 theoretical resistance, the 4.1 mH inductance, and the
6V source, compute for the theoretical voltages across the resistor and
inductor for 15 kHz and 70 kHz. Show the step-by-step computation.
Express the voltages in polar form.
2. Using the 500 2 theoretical resistance, 2200F capacitance, and the 6V
source, compute for the theoretical voltages across the resistor and
capacitor for 600 Hz and 1800 Hz. Show the step-by-step
computation. Express the voltages in polar form.
Transcribed Image Text:1. Using the 500 2 theoretical resistance, the 4.1 mH inductance, and the 6V source, compute for the theoretical voltages across the resistor and inductor for 15 kHz and 70 kHz. Show the step-by-step computation. Express the voltages in polar form. 2. Using the 500 2 theoretical resistance, 2200F capacitance, and the 6V source, compute for the theoretical voltages across the resistor and capacitor for 600 Hz and 1800 Hz. Show the step-by-step computation. Express the voltages in polar form.
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