Maricopa Community Colleges  ELT111   19932-19966 
Official Course Description: MCCCD Approval: 10/22/96
ELT111 19932-19966 LEC
LAB 		3 Credit(s)
0 Credit(s) 		2 Period(s)
3 Period(s)
Electronics I
A study of direct current (DC) electrical circuits, Ohm's laws, Kirchoff's laws in series, parallel, and series-parallel combinations in theory and practical lab circuits. Effects of meter loading and circuit load on circuits studied and evaluated with appropriate test equipment. Prerequisites or Corequisites: ELT101 or equivalent.
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MCCCD Official Course Competencies:
 
ELT111   19932-19966 Electronics I
1. Define basic electricity terms. (I)
2. Perform calculations using scientific notation with metric prefixes and symbols. (II, III, IV, V)
3. Use Ohm's law and Kirchoff's voltage law to solve series circuit problems. (II, III, IV, V)
4. Make circuit measurements using the ammeter, voltmeter, and ohmmeter. (II, III, IV, V, VI, VII)
5. Construct series, parallel, and combination circuits and measure voltages, current, and resistance using the appropriate test equipment. (III, IV, V, VI, VII)
6. Make circuit measurements in parallel and series-parallel circuits. (III, IV, V, VI, VII)
7. Use the laws of electricity to solve parallel and series-parallel circuit problems. (IV, V)
8. Describe voltage and current sources, and evaluate the effect of loads on practical sources. (V)
9. Use the standard color code to determine resistance. (VI)
10. Determine current meter and voltage meter loading effects in a circuit. (VII)
11. Describe the characteristics and properties of conductors and insulators. (VIII)
12. Use standard formulas to calculate internal resistance and power transfer for battery power supplies. (IX)
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MCCCD Official Course Outline:
 
ELT111   19932-19966 Electronics I
    I. Basic electricity
        A. Polarities
        B. Atom structure
        C. Fundamental units
          1. Voltage
          2. Current
          3. Resistance
          4. Coulomb
        D. Open and closed circuits
        E. Difference of AC and DC
        F. Direction of current flow
        G. Scientific and engineering notation
      II. Ohm's Law
          A. Multiple and submultiple units
          B. Linear relations
          C. Power
        III. Series circuits
            A. Rules of solutions
            B. Polarities
            C. Grounds
            D. Power
            E. Analyzation of circuits
            F. Voltage dividers
          IV. Parallel circuits
              A. Rules of solutions
              B. Branch effects
              C. Power
              D. Analyzation of circuits
              E. Current dividers
            V. Series-parallel combinations
                A. Analyze series and parallel circuits
                B. Perform measurements with typical industrial equipment
                C. Loaded divider circuits
              VI. Resistors
                  A. Types
                  B. Color codes
                  C. Power ratings
                  D. Troubles
                VII. Meters
                    A. Types
                    B. Measurements
                    C. Loading effects
                    D. Shunts
                    E. Continuity
                  VIII. Conductors and insulators
                      A. Characteristics
                      B. Wire gage and material effects
                    IX. Batteries
                        A. Types
                        B. Internal resistance
                        C. Power transfer
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