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• Class Discussion Item 1.1 – Household Mechatronic Systems

• Class Discussion Item 2.1 – Proper Car Jump Start
• Class Discussion Item 2.2 – Hydraulic Analogies of Electrical Sources
• Class Discussion Item 2.3 – Hydraulic Analogy of an Electrical Resistor
• Class Discussion Item 2.4 – Hydraulic Analogy of an Electrical Capacitor
• Class Discussion Item 2.5 – Hydraulic Analogy of an Electrical Inductor
• Class Discussion Item 2.6 – Improper Application of a Voltage Divider
• Class Discussion Item 2.7 – Reasons for AC
• Class Discussion Item 2.8 – Transmission Line Losses
• Class Discussion Item 2.9 – International AC
• Class Discussion Item 2.10 – AC Line Waveform
• Class Discussion Item 2.11 – DC Transformer
• Class Discussion Item 2.12 – Audio Stereo Amplifier Impedances
• Class Discussion Item 2.13 – Common Usage of Electrical Components
• Class Discussion Item 2.14 – Automotive Circuits
• Class Discussion Item 2.15 – Safe Grounding
• Class Discussion Item 2.16 – Electric Drill Bathtub Experience
• Class Discussion Item 2.17 – Dangerous EKG
• Class Discussion Item 2.18 – High-Voltage Measurement Pose
• Class Discussion Item 2.19 – Lightning Storm Pose

• Class Discussion Item 3.1 – Real Silicon Diode in a Half-Wave Rectifier
• Class Discussion Item 3.2 – Diode Clamp
• Class Discussion Item 3.3 – Peak Detector
• Class Discussion Item 3.4 – Voltage Limiter
• Class Discussion Item 3.5 – Effects of Load on Voltage Regulator Design
• Class Discussion Item 3.6 – 78XX Series Voltage Regulator
• Class Discussion Item 3.7 – Automobile Charging System
• Class Discussion Item 3.8 – Analog Switch Limit
• Class Discussion Item 3.9 – Common Usage of Semiconductor Components

• Class Discussion Item 4.1 – Musical Harmonics
• Class Discussion Item 4.2 – Measuring a Square Wave with a Limited Bandwidth System
• Class Discussion Item 4.3 – Audio Speaker Frequency Response
• Class Discussion Item 4.4 – Analytical Attenuation
• Class Discussion Item 4.5 – Assumptions for a Zero-Order Potentiometer
• Class Discussion Item 4.6 – Thermal Analogy of an Electrical RC Circuit
• Class Discussion Item 4.7 – Spring-Mass-Damper System in Space
• Class Discussion Item 4.8 – Good Measurement System Response
• Class Discussion Item 4.9 – Slinky Frequency Response
• Class Discussion Item 4.10 – Suspension Design Results
• Class Discussion Item 4.11 – Initial Condition Analogy
• Class Discussion Item 4.12 – Measurement System Physical Characteristics

• Class Discussion Item 5.1 – Kitchen Sink in an Op Amp Circuit
• Class Discussion Item 5.2 – Positive Feedback
• Class Discussion Item 5.3 – Example of Positive Feedback
• Class Discussion Item 5.4 – Voltage Divider With No Follower
• Class Discussion Item 5.5 – Integrator Behavior
• Class Discussion Item 5.6 – Differentiator Improvements
• Class Discussion Item 5.7 – Integrator and Differentiator Applications
• Class Discussion Item 5.8 – Real Integrator Behavior
• Class Discussion Item 5.9 – Bidirectional EMG Controller

• Class Discussion Item 6.1 – Nerd Numbers
• Class Discussion Item 6.2 – Computer Magic
• Class Discussion Item 6.3 – Everyday Logic
• Class Discussion Item 6.4 – Equivalence of Sum of Products and Product of Sums
• Class Discussion Item 6.5 – JK Flip-Flop Timing Diagram
• Class Discussion Item 6.6 – Computer Memory
• Class Discussion Item 6.7 – Switch Debouncer Function
• Class Discussion Item 6.8 – Converting Between Serial and Parallel Data
• Class Discussion Item 6.9 – Everyday Use of Logic Devices
• Class Discussion Item 6.10 – CMOS and TTL Power Consumption
• Class Discussion Item 6.11 – NAND Magic
• Class Discussion Item 6.12 – Driving an LED
• Class Discussion Item 6.13 – Up-Down Counters
• Class Discussion Item 6.14 – Astable Square-Wave Generator
• Class Discussion Item 6.15 – Digital Tachometer Accuracy
• Class Discussion Item 6.16 – Digital Tachometer Latch Timing
• Class Discussion Item 6.17 – Using Storage and Bypass Capacitors in Digital Design

• Class Discussion Item 7.1 – Car Microcontrollers
• Class Discussion Item 7.2 – Decrement Past 0
• Class Discussion Item 7.3 – PicBasic Pro and Assembly Language Comparison
• Class Discussion Item 7.4 – PicBasic Pro Equivalents of Assembly Language Statements
• Class Discussion Item 7.5 – Multiple Door and Window Security System
• Class Discussion Item 7.6 – PIC vs. Logic Gates
• Class Discussion Item 7.7 – Home Security System Design Limitation
• Class Discussion Item 7.8 – How Does Pot Work?
• Class Discussion Item 7.9 – Software Debounce
• Class Discussion Item 7.10 – Fast Counting
• Class Discussion Item 7.11 – Negative Logic LED

• Class Discussion Item 8.1 – Wagon Wheels and the Sampling Theorem
• Class Discussion Item 8.2 – Sampling a Beat Signal
• Class Discussion Item 8.3 – Laboratory A/D Conversion
• Class Discussion Item 8.4 – Selecting an A/D Converter
• Class Discussion Item 8.5 – Bipolar 4-Bit D/A Converter
• Class Discussion Item 8.6 – Audio CD Technology
• Class Discussion Item 8.7 – Digital Guitar

• Class Discussion Item 9.1 – Household Three-Way Switch
• Class Discussion Item 9.2 – LVDT Demodulation
• Class Discussion Item 9.3 – LVDT Signal Filtering
• Class Discussion Item 9.4 – Encoder Binary Code Problems
• Class Discussion Item 9.5 – Gray-to-Binary-Code Conversion
• Class Discussion Item 9.6 – Encoder 1X Circuit with Jitter
• Class Discussion Item 9.7 – Robotic Arm with Encoders
• Class Discussion Item 9.8 – Piezoresistive Effect in Strain Gages
• Class Discussion Item 9.9 – Wheatstone Bridge Excitation Voltage
• Class Discussion Item 9.10 – Bridge Resistances in Three-Wire Bridges
• Class Discussion Item 9.11 – Strain Gage Bond Effects
• Class Discussion Item 9.12 – Sampling Rate Fixator Strain Gages
• Class Discussion Item 9.13 – Effects of Gravity on an Accelerometer
• Class Discussion Item 9.14 – Amplitude Anomaly in Accelerometer Frequency Response
• Class Discussion Item 9.15 – Piezoelectric Sound

• Class Discussion Item 10.1 – Examples of Solenoids, Voice Coils, and Relays
• Class Discussion Item 10.2 – Eddy Currents
• Class Discussion Item 10.3 – Field-Field Interaction in a Motor
• Class Discussion Item 10.4 – Dissection of Radio Shack Motor
• Class Discussion Item 10.5 – H-bridge Flyback Protection
• Class Discussion Item 10.6 – Stepper Motor Logic
• Class Discussion Item 10.7 – Motor Sizing
• Class Discussion Item 10.8 – Examples of Electric Motors
• Class Discussion Item 10.9 – Force Generated by a Double-Acting Cylinder

• Class Discussion Item 11.1 – Derivative Filtering
• Class Discussion Item 11.2 – Coin Counter Circuits

• Class Discussion Item A.1 – Definition of Base Units
• Class Discussion Item A.2 – Common Use of SI Prefixes
• Class Discussion Item A.3 – Physical Feel for SI Units
• Class Discussion Item A.4 – Statistical Calculations
• Class Discussion Item A.5 – Your Class Age Histogram
• Class Discussion Item A.6 – Relationship Between Standard Deviation and Sample Size
• Class Discussion Item C.1 – Fracture Plane Orientation in a Tensile Failure