Textbook Question
If the current gain of the transistor amplifier in Fig. 40–49 is β = ic/iB = 95, what value must Rc have if a 1.0-μA ac base current is to produce an ac output voltage of 0.40 V?
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Ch. 40 - Molecules and Solids
Giancoli Douglas5th editionPhysics for Scientists and EngineersISBN: 9780137488179
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Table of contents
- Ch. 01 - Introduction, Measurement, Estimating10
- Ch. 02 - Describing Motion: Kinematics in One Dimension30
- Ch. 03 - Kinematics in Two or Three Dimensions; Vectors15
- Ch. 04 - Dynamics: Newton's Laws of Motion16
- Ch. 05 - Using Newton's Laws: Friction, Circular Motion, Drag Forces22
- Ch. 06 - Gravitation and Newton's Synthesis10
- Ch. 07 - Work and Energy21
- Ch. 08 - Conservation of Energy33
- Ch. 09 - Linear Momentum26
- Ch. 10 - Rotational Motion41
- Ch. 11 - Angular Momentum; General Rotation27
- Ch. 12 - Static Equilibrium; Elasticity and Fracture27
- Ch. 13 - Fluids28
- Ch. 14 - Oscillations14
- Ch. 15 - Wave Motion35
- Ch. 16 - Sound5
- Ch. 17 - Temperature, Thermal Expansion, and the Ideal Gas Law40
- Ch. 18 - Kinetic Theory of Gases18
- Ch. 19 - Heat and the First Law of Thermodynamics31
- Ch. 20 - Second Law of Thermodynamics32
- Ch. 21 - Electric Charge and Electric Field7
- Ch. 23 - Electric Potential20
- Ch. 24 - Capacitance, Dielectrics, Electric Energy, Storage15
- Ch. 25 - Electric Current and Resistance32
- Ch. 26 - DC Circuits22
- Ch. 27 - Magnetism21
- Ch. 28 - Sources of Magnetic Field24
- Ch. 29 - Electromagnetic Induction and Faraday's Law21
- Ch. 30 - Inductance, Electromagnetic Oscillations, and AC Circuits42
- Ch. 31 - Maxwell's Equations and Electromagnetic Waves25
- Ch. 32 - Light: Reflection and Refraction42
- Ch. 33 - Lenses and Optical Instruments21
- Ch. 34 - The Wave Nature of Light: Interference and Polarization26
- Ch. 35 - Diffraction24
- Ch. 36 - The Special Theory of Relativity29
- Ch. 38 - Quantum Mechanics1
- Ch. 40 - Molecules and Solids6
- Ch. 43 - Elementary Particles3
- Ch. 44 - Astrophysics and Cosmology9
Giancoli Douglas5th editionPhysics for Scientists and EngineersISBN: 9780137488179Not the one you use?Change textbook
Chapter 37, Problem 54
(II) An ac voltage of 120 V rms is to be rectified. Estimate very roughly the average current in the output resistor R (42 kΩ) for (a) a half-wave rectifier (Fig. 40–39), and (b) a full-wave rectifier (Fig. 40–40) without capacitor.
Verified step by step guidance1
Step 1: Understand the problem. The goal is to estimate the average current through the resistor R (42 kΩ) for two cases: (a) a half-wave rectifier and (b) a full-wave rectifier. The input voltage is given as 120 V rms, and we are working without a capacitor.
Step 2: Convert the rms voltage to peak voltage. The relationship between rms voltage (V_rms) and peak voltage (V_peak) is given by: . Substitute 120 V for V_rms to find V_peak.
Step 3: For the half-wave rectifier, the average output voltage is approximately half of the peak voltage. Use the formula: . Then, calculate the average current using Ohm's Law: , where R = 42 kΩ.
Step 4: For the full-wave rectifier, the average output voltage is approximately equal to the peak voltage. Use the formula: . Then, calculate the average current using Ohm's Law: , where R = 42 kΩ.
Step 5: Compare the results for the half-wave and full-wave rectifiers. Note that the full-wave rectifier provides a higher average current because it utilizes both halves of the AC cycle, while the half-wave rectifier only uses one half.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
RMS Voltage
RMS (Root Mean Square) voltage is a statistical measure of the magnitude of a varying voltage. It represents the equivalent DC voltage that would deliver the same power to a resistor. For an AC voltage, the RMS value is calculated as the peak voltage divided by the square root of 2, which is essential for determining the effective voltage in circuits.
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Rectification
Rectification is the process of converting alternating current (AC) to direct current (DC). In half-wave rectification, only one half of the AC waveform is allowed to pass, resulting in a pulsating DC output. Full-wave rectification, on the other hand, utilizes both halves of the AC waveform, providing a smoother and more efficient DC output, which is crucial for understanding the average current in the output resistor.
Ohm's Law
Ohm's Law states that the current (I) flowing through a conductor between two points is directly proportional to the voltage (V) across the two points and inversely proportional to the resistance (R) of the conductor. This relationship is expressed as I = V/R, which is fundamental for calculating the average current in the output resistor for both half-wave and full-wave rectifiers.
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