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learn:courses:real-analog-chapter-1:start [2017/05/30 19:52] Marthalearn:courses:real-analog-chapter-1:start [2017/06/21 23:33] – [Current] Martha
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 ====== Real Analog: Chapter 1 ====== ====== Real Analog: Chapter 1 ======
 [[{}/learn/courses/real-analog/start|Back to Landing Page]] [[{}/learn/courses/real-analog/start|Back to Landing Page]]
---> Chapter 1 Downloads#    +--> Chapter 1 Materials#    
-  * Lecture Slides:+  * Lecture Material:
     * {{ :learn:courses:real-analog-chapter-1:lecture1.ppt |Lecture 1 PowerPoint Slides}}: Course overview, basic circuit parameters, passive sign convention     * {{ :learn:courses:real-analog-chapter-1:lecture1.ppt |Lecture 1 PowerPoint Slides}}: Course overview, basic circuit parameters, passive sign convention
-      * [[http://www.youtube.com/watch?v=d8qmIMGJ-9o&list=PLDEC730F6A8CDE318&index=1&feature=plpp_video| Lecture 1 Video]] 
     * {{ :learn:courses:real-analog-chapter-1:lecture2.ppt |Lecture 2 PowerPoint Slides}}: Power generation & absorption, power sources, resistance     * {{ :learn:courses:real-analog-chapter-1:lecture2.ppt |Lecture 2 PowerPoint Slides}}: Power generation & absorption, power sources, resistance
-      * [[http://www.youtube.com/watch?v=HQ6TCjZDbCk&list=PLDEC730F6A8CDE318&index=2&feature=plpp_video| Lecture 2 Video]] 
     * {{ :learn:courses:real-analog-chapter-1:lecture3.ppt |Lecture 3 PowerPoint Slides}}: Review, Kirchhoff's current law, Kirchhoff's voltage law     * {{ :learn:courses:real-analog-chapter-1:lecture3.ppt |Lecture 3 PowerPoint Slides}}: Review, Kirchhoff's current law, Kirchhoff's voltage law
-      * [[http://www.youtube.com/watch?v=bvVTvxpZbfk&list=PLDEC730F6A8CDE318&index=3&feature=plpp_video|Lecture 3 Video]] 
     * {{ :learn:courses:real-analog-chapter-1:lecture4.ppt |Lecture 4 PowerPoint Slides}}: Circuit analysis examples, series & parallel circuit elements     * {{ :learn:courses:real-analog-chapter-1:lecture4.ppt |Lecture 4 PowerPoint Slides}}: Circuit analysis examples, series & parallel circuit elements
-      * [[http://www.youtube.com/watch?v=C2hn1pDEObU&list=PLDEC730F6A8CDE318&index=4&feature=plpp_video| Lecture 4 Video]] +    * [[http://www.youtube.com/watch?v=d8qmIMGJ-9o&list=PLDEC730F6A8CDE318&index=1&feature=plpp_video| Lecture 1 Video]] 
 +    * [[http://www.youtube.com/watch?v=HQ6TCjZDbCk&list=PLDEC730F6A8CDE318&index=2&feature=plpp_video| Lecture 2 Video]] 
 +    * [[http://www.youtube.com/watch?v=bvVTvxpZbfk&list=PLDEC730F6A8CDE318&index=3&feature=plpp_video| Lecture 3 Video]] 
 +    * [[http://www.youtube.com/watch?v=C2hn1pDEObU&list=PLDEC730F6A8CDE318&index=4&feature=plpp_video| Lecture 4 Video]] 
 +  * Chapter 1 Videos: 
 +    * [[http://www.youtube.com/watch?v=o3jokyUJuSU&list=PL170A01159D42313D&index=1&feature=plpp_video| Lab 1 Video 1]]: DMM Usage: Measuring voltage, current, and resistance using a hand-held digital multimeter. Using breadboards to implement circuits 
 +    * [[http://www.youtube.com/watch?v=I7xe8biuvds&list=PL170A01159D42313D&index=2&feature=plpp_video| Lab 1 Video 2]]: Resistors 1: Physical resistors. Nominal resistance values from color codes. Resistance measurement using ohmeters or measured voltage and current. 
 +    * [[http://www.youtube.com/watch?v=4bJ9MvgSkY8&list=PL170A01159D42313D&index=3&feature=plpp_video| Lab 1 Video 3]]: Dependent Sources: MOSFETs and BJTs as dependent sources. 
 +    * [[http://www.youtube.com/watch?v=0ajtS0zSRvY&list=PL170A01159D42313D&index=4&feature=plpp_video| Lab 1 Video 4]]: Applications: Concept applications: dusk-to-dawn light and temperature measurement.
   * {{ :learn:courses:real-analog-chapter-1:real-analog-chapter-1.pdf | Chapter 1 Complete PDF}}   * {{ :learn:courses:real-analog-chapter-1:real-analog-chapter-1.pdf | Chapter 1 Complete PDF}}
     * {{ :learn:courses:real-analog-chapter-1:lab1p1.pdf |Lab 1.1}}     * {{ :learn:courses:real-analog-chapter-1:lab1p1.pdf |Lab 1.1}}
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       * {{ :learn:courses:real-analog-chapter-1:back1p4p4_temperaturesensors.pdf |Background 1}}: Background material for lab 1.4.4: Resistive Temperature Sensors       * {{ :learn:courses:real-analog-chapter-1:back1p4p4_temperaturesensors.pdf |Background 1}}: Background material for lab 1.4.4: Resistive Temperature Sensors
       * {{ :learn:courses:real-analog-chapter-1:lab1p4p4_worksheet.docx |Worksheet 1.4.4}}       * {{ :learn:courses:real-analog-chapter-1:lab1p4p4_worksheet.docx |Worksheet 1.4.4}}
- +   * {{ :learn:courses:real-analog-chapter-1:realanalog-exercisesolutions-chapter1.pdf |Exercise Solutions}}: Chapter 1 exercise solutions 
-     * {{ :learn:courses:real-analog-chapter-1:realanalog-exercisesolutions-chapter1.pdf |Exercise Solutions}}: Chapter 1 exercise solutions +   * {{ :learn:courses:real-analog-chapter-1:homework1.docx |Homework}}: Chapter 1 homework problems
-     * {{ :learn:courses:real-analog-chapter-1:homework1.docx |Homework}}: Chapter 1 homework problems+
  
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 Mathematically, current is represented as:  Mathematically, current is represented as: 
  
-$$ i=\frac{dq}{dw}\         (Eq. 1.2) $$ +$$ i=\frac{dq}{dt}\         (Eq. 1.2) $$ 
  
 Where //i// is the current in amperes, //q// is the charge in coulombs, and //t// is the time in seconds. Thus, current is the time rate of change of charge and units of charge are coulombs per second, or //amperes// (abbreviated as //A//).  Where //i// is the current in amperes, //q// is the charge in coulombs, and //t// is the time in seconds. Thus, current is the time rate of change of charge and units of charge are coulombs per second, or //amperes// (abbreviated as //A//).