1.2 Measurements taken on various resistors are shown below. For each, calculate the power dissipated in the resistor and the power rating necessary for safe operation using standard components with power ratings of 1/8 W, 1/4 W, 1/2 W, 1 W, or 2 W: (a) 1 k conducting 20 mA (b) 1 k conducting 40 mA (c) 100 k conducting 1 mA (d) 10 k conducting 4 mA (e) 1 k dropping 20 V (f) 1 k dropping 11 V

2 13 - 1.2 Measurements taken on various resistors are shown below. For each, calculate the power dissipated in the resistor and the power rating necessary for safe operation using standard components with power ratings of 1/8 W, 1/4 W, 1/2 W, 1 W, or 2 W: (a) 1 k conducting 20 mA (b) 1 k conducting 40 mA (c) 100 k conducting 1 mA (d) 10 k conducting 4 mA (e) 1 k dropping 20 V (f) 1 k dropping 11 V

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images - 1.2 Measurements taken on various resistors are shown below. For each, calculate the power dissipated in the resistor and the power rating necessary for safe operation using standard components with power ratings of 1/8 W, 1/4 W, 1/2 W, 1 W, or 2 W: (a) 1 k conducting 20 mA (b) 1 k conducting 40 mA (c) 100 k conducting 1 mA (d) 10 k conducting 4 mA (e) 1 k dropping 20 V (f) 1 k dropping 11 V

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