Latest revision as of 16:13, 2 February 2013

[edit] ENTS KIDS

[edit] Possible Formats

1. Standard course based
2. In-class demonstrations
3. Parent+child classes

[edit] Schedule

[edit] Topics

[edit] Soldering

• Chemistry of solder: Why Lead Free solder?
• Chemistry of Flux: Why do we use flux? Why Resin, Acid or Water based?
• The difference between solder and welding
• Blob or Twist? Mechanical Strength and stability
• Free-Form or PCB? Advanced Stabilization techniques
• Solder gun, Solder Pencil, Solder Paste, Reflow, and Reheat
• Through hole, and Surface Mount

[edit] Electronics

• The concept of a Circuit
• Serial versus Parallel, or Series Parallel
• Ohms Law, Voltage, Amperage and Resistance
• The concept of D.C. versus A.C.
• DC Circuits
  • Batteries
  • Wattage, Joules, and Energy Storage Density
    • The Flashlight circuit
    • The LED variation and Polarity
    • The concept of "Voltage Drop"
  • Resistance and Voltage Drop
    • The voltage divider
    • Serial LED circuits
    • Parallel LED circuits
    • The concept of "Amperage Limits"
    • Resistance and Amperage Limiting
    • Measuring Voltage, Resistance, and Amperage
  • Capacitors
    • Capacitors as electrical storage
• AC circuits
  • Frequency, High Frequency, Low Frequency, and Band Frequencies
  • Period, and wavelength in frequency
    • Capacitors as Filters (Ripple Management)
    • High Pass, Low Pass, Band Pass
    • High Block, Low Block, Band Block
    • Coupling and Decoupling A.C. and D.C. components of a signal
    • Signals in D.C. (Binary and Analog)
    • Digital Signals versus Analog Signals
    • Analog to Digital Conversions
    • Digital to Analog Conversions
  • Inductors
    • Magentic theory: Every Wire is an inductor
    • Creating Magnetic Fields, Electrical currents create magnetism
    • Detecting Magnetic Fields Moving Magnetic fields create electrical currents
    • The Building and Collapse of the Magnetic Field in A.C. currents
    • The A.C. Current, and Electro-magnetics (solenoids, electromagnets and Railguns)
    • Coils, Antennas, and other "Shaped Inductors"
    • Generators, Alternators, and Power Generation
    • Transformation, the A.C. to A.C. conversion of voltage
    • Inductors as filters
      • High Pass, low pass, and band pass filters
      • High Block, High Block, and Band Block filters
    • The Sine Wave versus the Cosine Wave
    • The Idea of Phase
    • Capacitance Phase changes
    • Inductive Phase changes
    • Phase versus Power Factor
    • The concept of a TANK circuit
    • Reactance and the concept of phase as resistance to flow
    • Radio-Waves, What is reception and transmission?
• Active Circuits
  • The idea of Semi-conductors
  • N doped Semi-conductors
  • P doped Semi-conductors
  • The idea of NP junctions
  • The Diode
    • Polarity of Diodes
    • Back Voltage, and Breakdown voltage
    • Junction minimum voltages
    • Converting A.C. to D.C. using diodes
    • The Bridge
    • The Half-Bridge
    • Other Bridge Circuits
  • NPN junctions (transistors)
  • PNP junctions (transistors)
    • The Transistor as Switch
    • The Transistor as Amplifier
    • The Transistor as Invertor
    • The Transistor as an adjustable Capacitor
    • The Transistor as an adjustable Resistor
    • The Transistors minimum voltage
    • Ranges of Transistors
    • Switching speed versus Transistor size
    • Switching Capacitance of Large Transistors
    • The need to decouple large transistors
    • Open Sink, Versus closed sink outputs
    • Tristate why a high inductance output limits transistor response
    • Current limiting of Transistor Outputs

[edit] Radio

• What is a Spectrum
• The Radio Spectrum
• Generating Radio waves by Induction
• Why both the transmitter and the receiver have Frequency Control circuits
• The RC, RL, and Tank Circuits versus the Quartz Crystal
• Resonance and Reactance
• Amperage and Voltage Versus Radio Range
• Amplitude Modulation (AM)
• Frequency Modulation (FM)
• Frequency Jumping, and Spread Spectrum
• Cellular Concepts
  • What is a Cell
  • Why does reception vary across the City/Country
  • Traveling from Cell to Cell
  • Digital vs. Analog Cell Signals
  • Does A Digital Signal assure privacy?
    • Encryption versus Coding

[edit] Robotics

• basic analog
  • line follower
  • wall follower
  • Photo-vore/Photo-phobe
  • Tensor Control Systems
  • Analog RC (wire guided)
• basic digital
  • wall/line follower
  • servo/range sensor/Optical feedback devices
  • IR/Sonar/Mechanical "Senses"
  • logic based actions
    • Hard Programs (CRC devices, 3D printers etc.)
• A.I. based Robotics (added for completeness, probably too advanced for age range)
  • Rule Bases
  • Fuzzy Logic
  • Inductive Control (I.E. Power-Hunger)
  • Darwin and other BBD's
• Control Schemes (added for completeness TX 2B/RX 2B are readily available in cheap toys)
  • Digital RC (TX2B/RX2B)
  • Semi-Autonomous robots
  • UAV's and Autonomous Robots
  • Social Robots,
  • Robots as Agents, Multi-Robot Language and Mapping Strategies

[edit] Mechanics

• The Fulcrum/Axle
• The Wheel
• The Lever
• The Spring
• The shaft
• The spur gear
• The Rack gear
• The Worm gear
• The Pulley
• The Motor
• Engines of Different Types as Motors

[edit] Welding

• The difference between welding and soldering
  • Ceramics and Syntering as welding
    • The Plastic Limit and the Phase change between solid and liquid
• Metal to Metal Welding
  • Dissimilar metal concerns
  • Thermite and aluminum welding
  • Brasing a case in point
  • Oxy-Fuel cutting and welding
  • The Stinger and Rod Welding Technique
  • Wire welding
    • Metal in Gas Welding
      • CO2
      • Argon
      • Helium
      • Titanium in Gas Welding
  • Capacitance Welding Techniques (and why not to solder directly on batteries)
  • Powder in Gas, (often laser heated) Welding
    • Advanced Additive Welding Techniques similar to 3D printing
• Plastic to Plastic Welding
  • Plastic cutting with the "Hot Wire" Technique
  • Plastic Welding using Plastic welding rods
  • Plastic Lamination as Welding
  • Concerns with Welding dissimilar plastics
  • 3D Printing as a Plastic Welding Technique

[edit] Machining

• The Artist Freeing the Art from the Media
• Shaping things by removing material
• Basic Safety around power tools
• Making Holes with a drill by hand
• The Brace and Bit, Rotary Drilling becomes practical
• The Hand Drill and Bits
• Constraints on movement, Why the Drill Press is better
• The Lathe
  • The Pottery Wheel, shaping Mud
  • The early Whip Shaft Lathe
  • Rotary Lathes
  • Steam Powered Lathes
  • Electrical Powered Lathes
  • The Modern Wood Lathe
  • The Modern Metal Lathe
  • CNC Lathes
  • Turret Lathes
• The Mill, (Turning the Lathe on end)
  • The Router, a Hand-Mill
  • The Router Table, better quality
  • The Router Jigs
  • The Machining Mill, as Controlled combination of drill press and Router Table
  • The CNC Mini-Mill
  • The CNC Mill
  • CNC Panel Board Milling

[edit] Carpentry

• Working with wood
• Basic Safety around power tools
• The use of sandpaper
  • Sandpaper Coarseness versus surface roughness
  • Removing Finishes, and coarser paper to break the finish
  • Advancing from coarse to fine to improve the finish
  • The use of rouge for fine surfaces
  • Power sanders
    • The Orbital Sander, (and finishing sander)
    • The Belt Sander
    • Shaping with the Spindle sander
    • The hand Disk Sander
    • The Table Disk/Belt Sander
• Cutting wood
  • Stress Relief on the blade, Notches and stress when cutting
  • Sharpening versus Honing
  • care of blades
• The knife
  • Whittling by hand
  • The use of hand chisels
  • Special Care for hand chisels
  • The use of "Hammer Type Chisels"
  • The Hollowground chizel blade and why it exists
  • The Hand Plane, Shaving off thin surface irregularities
    • Specialized types of hand planes
  • The Powered Hand Plane
  • The Dimensioning Plane
  • The shaper/edger
• Composite Blades
  • The file as a gang of blades
    • Coarseness versus surface roughness
    • Draw Filing to reduce surface roughness
    • The Rasp, fast removal of material for shaping
    • The file/Rasp Blade profile and what type of material removal to use it for
    • Cleaning the file to keep it cutting well
  • Burrs, and Grinding Tools
    • Using in a Dremel or Router to do detail work
  • Drills, Blade and Shaft Types
  • Drilling by Hand
  • Drilling with a Drill Press
  • Special Types of Drill Bits (Forstner Bits, etc.)
  • The basic set of Router Bits
    • Profiles
    • Rabits
    • Grooves
    • Pilot type bits
    • Guides Jigs, and Tables making a hand Router more useable
  • The lathe
    • Basic Lathe Safety
    • The tool-rest and Lathe chizel types
    • Turning speed versus cut-depth/Hardness of wood
    • Turning bowls etc.
    • Profile turning with a pantograph and a profile
  • The saw as a linear gang of blades
  • Saw tooth styles
  • The Hand Saw
    • The crosscut saw
    • The Rip saw
    • The coping saw
    • The Hack Saw
    • The Miter Saw
    • Blade sharpening techniques
    • Long-Lasting carbide Tips on blades
    • Specialized Saw Blades
  • The Power Saw
    • The circular saw
      • The Skill Saw or Hand Circular Saw
      • The Table saw
      • The chop-saw, Miter-saw, Compound Miter saw
      • The Panel Saw
    • Other types of power saws
      • The Reciprocating or Saws-all Saw
      • The Scroll Saw
      • The Belt Saw
      • The Gang Saw
      • The Chipping Saw

[edit] Painting and Finishing

• The chemistry of Paint
  • Oil versus Latex
  • Health aspects of new Plastic/Organic paints
  • Tints, Stains, and toxicity
  • Why Lead in paint is discouraged
• Getting a smooth even layer
  • Using a Brush
  • Using a roller
  • Using a Sprayer/spraybomb
  • Using a Powder coat
• preparation for painting/staining etc.
  • scuffed but even surfaces, getting the paint to stick
  • Dry, Clean Surfaces
  • Opening the pores of wood etc.
  • Matching the chemistry to the Material being painted
  • Matching the chemistry to the expected environment
  • Masking and covering against spills/overspray
• The Painting Environment
  • • Ventilation versus Protection from contamination
    • Paint booths for fine finishes
    • Curing versus Baking how to harden the paint
    • The painters Mask, why different masks for different paints
    • Why White Coveralls?
• Clear Coats, Varnish, Shellac, etc.
  • Putting on a shine
  • Shellac, and Varnish, getting depth to the shine
  • Clear Coats, and Varathane, a hardy clear surface to the paint/stain
  • Oils and waxes Nourishing the wood, to keep it from drying out

[edit] Photography

• high quality pin hole camera
• The theory of photo-lithography
• The DarkRoom is it obsolete? Why you might not want to get your film developed by a service
• Quick-shots versus SLR cameras why look out the lens?
• Digital versus Film which is better?
• The theory of Digital Cameras
• Scanners versus Digital Cameras
• Image Manipulation, and Quality Control
• The controls on your camera
  • Fstop
  • Shutter Speed
  • Lens size versus Light/Focus Depth etc.
  • The Zoom, which is better optical zoom or digital zoom
  • Focus versus infinity
  • Macro-Modes
  • Flash versus Fstop/shutterspeed
  • should I use a filter?
  • Making Movies
  • Making Panaramas
  • Making Time-delay movies
  • High Speed Cameras and slowing down fast events.
  • Hacking your camera

[edit] Movie Making

• The script
• The StoryBoard
• Do you really need that silly clacker thing?
• The idea of short-takes, and long editing sessions
• The Cutting Room Floor (So to speak)
• Consistency versus long filming periods

[edit] Writing

[edit] CAD/3d Printing

• basic 3d design using free google sketchup
  • print 3d model or model object from thingiverse
• 3d scan using kinect
  • possibly print the result of the scanned model, eg your face as a keychain