Questions 16-20 Consider the circuit shown in the figure. For calculations use the approximations: e≈2.7, √e 1.6, 1/√e≈ 0.6 16. Calculate the current flows from the circuit immediately after the switch is closed. (a) 18 mA (b) 0.1 mA (c) 4.5 mA (d) 0 (e) 1 mA 17. Calculate the current flows from the circuit long (a) 3 mA (b) 0.1 mA (c) 4.5 mA (d) 0 (e) 1 mA after the switch is closed. 18. Calculate the charge across the capacitor C₁ long after the switch is closed. (a) 45 μC (b) 27 μC (e) 9 μC (d) 18 μC (e) 0 19. Calculate the charge across the capacitor C₂ long after the switch is closed. (a) 0 (b) 9 μC (c) 18 C (d) 45 μC (e) 27 C 20. Calculate the charge across the capacitor C₂ after the switch is closed for 5 s. (a) 7.2 C (b) 14.4 μC (c) 3.6 μC (d) 28.8 μC (e) 1.8 μ C R₁-6 kn [ R = 3 kΩ C₁-3 µF (3 C₁-2 µF &=9V

Questions 16-20 Consider the circuit shown in the figure. For calculations use the approximations: e≈2.7, √e 1.6, 1/√e≈ 0.6 16. Calculate the current flows from the circuit immediately after the switch is closed. (a) 18 mA (b) 0.1 mA (c) 4.5 mA (d) 0 (e) 1 mA 17. Calculate the current flows from the circuit long (a) 3 mA (b) 0.1 mA (c) 4.5 mA (d) 0 (e) 1 mA after the switch is closed. 18. Calculate the charge across the capacitor C₁ long after the switch is closed. (a) 45 μC (b) 27 μC (e) 9 μC (d) 18 μC (e) 0 19. Calculate the charge across the capacitor C₂ long after the switch is closed. (a) 0 (b) 9 μC (c) 18 C (d) 45 μC (e) 27 C 20. Calculate the charge across the capacitor C₂ after the switch is closed for 5 s. (a) 7.2 C (b) 14.4 μC (c) 3.6 μC (d) 28.8 μC (e) 1.8 μ C R₁-6 kn [ R = 3 kΩ C₁-3 µF (3 C₁-2 µF &=9V

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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Thermistors

A thermistor is a special type of resistor whose resistance is more temperature-dependent than standard resistors. The resistance of the thermistor decreases with increasing temperature. This is the basic principle of thermistors. This allows the thermistor circuit to detect very small temperature changes that cannot be observed with the Resistance temperature detectors (RTDs) or the thermocouples. Since the resistance of a thermistor is temperature dependent, it can be connected to an electrical circuit to measure body temperature. This high sensitivity to temperature changes makes thermistors very useful for accurately controlling and calibrating temperature measurements. In general, resistance increases with increasing temperature in most metals, but thermistors react negatively.

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