Q1) Determine the following for the voltage-divider configuration of Fig. 1 using the approxi- mate approach a. Ic. b. VCE- c. IR. d. VE. e. Vg. 3.3 kо 39 k2 Ic VCE B = 120 OVE 8.2 k2 1 kQ FIG. 1 then...

Q1) Determine the following for the voltage-divider configuration of Fig. 1 using the approxi-<br>mate approach<br>a. Ic.<br>b. VCE-<br>c. IR.<br>d. VE.<br>e. Vg.<br>3.3 kо<br>39 k2<br>Ic<br>VCE B = 120<br>OVE<br>8.2 k2<br>1 kQ<br>FIG. 1<br>then repeat it using the exact (Thévenin) approach and compare solutions. Based on the<br>results, is the approximate approach a valid analysis technique<br>

Extracted text: Q1) Determine the following for the voltage-divider configuration of Fig. 1 using the approxi- mate approach a. Ic. b. VCE- c. IR. d. VE. e. Vg. 3.3 kо 39 k2 Ic VCE B = 120 OVE 8.2 k2 1 kQ FIG. 1 then repeat it using the exact (Thévenin) approach and compare solutions. Based on the results, is the approximate approach a valid analysis technique

Jun 10, 2022

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Q1) Determine the following for the voltage-divider configuration of Fig. 1 using the approxi- mate approach a. Ic. b. VCE- c. IR. d. VE. e. Vg. 3.3 kо 39 k2 Ic VCE B = 120 OVE 8.2 k2 1 kQ FIG. 1 then...

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