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learn:courses:real-analog-chapter-1:start [2017/04/19 10:23] Marthalearn:courses:real-analog-chapter-1:start [2023/02/09 07:12] (current) – external edit 127.0.0.1
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 ====== Real Analog: Chapter 1 ====== ====== Real Analog: Chapter 1 ======
- +[[{}/learn/courses/real-analog/start|Back to Landing Page]] 
---> Chapter 1 Downloads#  +--> Chapter 1 Materials   
-  * {{ :learn:courses:real-analog-chapter-1:realanalog-circuits1-chapter1.pdf |Chapter 1 PDF}} +  * Lecture Material: 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p1.pdf |Lab 1.1}}: Solderless Breadboards, Open-circuits and Short-circuits +    * {{ :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:lab1p1_worksheet.docx |1.1 Worksheet}} +    * {{ :learn:courses:real-analog-chapter-1:lecture2.ppt |Lecture 2 PowerPoint Slides}}: Power generation & absorption, power sources, resistance 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p2p1.pdf |Lab 1.2.1}}: Independent Power Supplies, Ammeters, and Voltmeters +    * {{ :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:lab1p2p1_worksheet.docx |1.2.1 Worksheet}} +    * {{ :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:lab1p2p2.pdf |Lab 1.2.2}} Dependent Sources and MOSFETs +    * [[http://www.youtube.com/watch?v=d8qmIMGJ-9o&list=PLDEC730F6A8CDE318&index=1&feature=plpp_video| Lecture 1 Video]] 
-      * {{ :learn:courses:real-analog-chapter-1:lab1p2p2_worksheet.docx |1.2.2 Worksheet}} +    * [[http://www.youtube.com/watch?v=HQ6TCjZDbCk&list=PLDEC730F6A8CDE318&index=2&feature=plpp_video| Lecture 2 Video]] 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p3p1.pdf |Lab 1.3.1}}: Resistors and Ohms Law - Resistance Variations +    * [[http://www.youtube.com/watch?v=bvVTvxpZbfk&list=PLDEC730F6A8CDE318&index=3&feature=plpp_video| Lecture 3 Video]] 
-      * {{ :learn:courses:real-analog-chapter-1:lab1p3p1_worksheet.docx |1.3.1 Worksheet}} +    * [[http://www.youtube.com/watch?v=C2hn1pDEObU&list=PLDEC730F6A8CDE318&index=4&feature=plpp_video| Lecture 4 Video]] 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p3p2.pdf |Lab 1.3.2}}: Resistors and Ohms Law - Voltage-Current Characteristics +  * Chapter 1 Videos: 
-      * {{ :learn:courses:real-analog-chapter-1:lab1p3p2_worksheet.docx |1.3.2 Worksheet}} +    * [[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 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p4p1.pdf |Lab 1.4.1}}: Dusk-to-Dawn Light +    * [[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. 
-      * {{ :learn:courses:real-analog-chapter-1:lab1p4p1_worksheet.docx |1.4.1 Worksheet}} +    * [[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. 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p4p2.pdf |Lab 1.4.2}}: Resistive Network Power Dissipation +    * [[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:lab1p4p2_worksheet.docx |1.4.2 Worksheet+  * {{ :learn:courses:real-analog-chapter-1:real-analog-chapter-1.pdf | Chapter 1 Complete PDF}} 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p4p3.pdf |Lab 1.4.3}}: Input Resistance +    * {{ :learn:courses:real-analog-chapter-1:lab1p1.pdf |Lab 1.1}} 
-      * {{ :learn:courses:real-analog-chapter-1:lab1p4p3_worksheet.docx |1.4.3 Worksheet}} +      * {{ :learn:courses:real-analog-chapter-1:lab1p1_worksheet.docx |Worksheet 1.1}} 
-    * {{ :learn:courses:real-analog-chapter-1:lab1p4p4.pdf |Lab 1.4.4}}: Temperature Measurement System +    * {{ :learn:courses:real-analog-chapter-1:lab1p2p1.pdf |Lab 1.2.1}} 
-      * {{ :learn:courses:real-analog-chapter-1:lab1p4p4_worksheet.docx |1.4.4 Worksheet}} +      * {{ :learn:courses:real-analog-chapter-1:lab1p2p1_worksheet.docx |Worksheet 1.2.1}} 
- +    * {{ :learn:courses:real-analog-chapter-1:lab1p2p2.pdf |Lab 1.2.2}} 
-  * {{ :learn:courses:real-analog-chapter-1:realanalog-exercisesolutions-chapter1.pdf |Exercise Solutions}}: Chapter 1 exercise solutions +      * {{ :learn:courses:real-analog-chapter-1:lab1p2p2_worksheet.docx |Worksheet 1.2.2}} 
-  * {{ :learn:courses:real-analog-chapter-1:homework1.docx |Homework}}: Chapter 1 homework problems +    * {{ :learn:courses:real-analog-chapter-1:lab1p3p1.pdf |Lab 1.3.1}} 
-  * {{ :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:lab1p3p1_worksheet.docx |Worksheet 1.3.1}} 
 +    * {{ :learn:courses:real-analog-chapter-1:lab1p3p2.pdf |Lab 1.3.2}} 
 +      * {{ :learn:courses:real-analog-chapter-1:lab1p3p2_worksheet.docx |Worksheet 1.3.2}} 
 +    * {{ :learn:courses:real-analog-chapter-1:lab1p4p1.pdf |Lab 1.4.1}} 
 +      * {{ :learn:courses:real-analog-chapter-1:lab1p4p1_worksheet.docx |Worksheet 1.4.1}} 
 +    * {{ :learn:courses:real-analog-chapter-1:lab1p4p2.pdf |Lab 1.4.2}} 
 +      * {{ :learn:courses:real-analog-chapter-1:lab1p4p2_worksheet.docx |Worksheet 1.4.2}
 +    * {{ :learn:courses:real-analog-chapter-1:lab1p4p3.pdf |Lab 1.4.3}} 
 +      * {{ :learn:courses:real-analog-chapter-1:lab1p4p3_worksheet.docx |Worksheet 1.4.3}} 
 +    * {{ :learn:courses:real-analog-chapter-1:lab1p4p4.pdf |Lab 1.4.4}} 
 +      * {{ :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:realanalog-exercisesolutions-chapter1.pdf |Exercise Solutions}}: Chapter 1 exercise solutions 
 +   * {{ :learn:courses:real-analog-chapter-1:homework1.docx |Homework}}: Chapter 1 homework problems
  
 <-- <--
  
-====== 1. Introduction and Chapter Objectives ======+===== 1. Introduction and Chapter Objectives =====
 In this chapter, we introduce all fundamental concepts associated with circuit analysis. Electrical circuits are constructed in order to direct the flow of electrons to perform a specific task. In other words, in circuit analysis and design, we are concerned with transferring electrical energy in order to accomplish a desired objective. For example, we may wish to use electrical energy to pump water into a reservoir; we can adjust the amount of electrical energy applied to the pump to vary the rate at which water is added to the reservoir. The electrical circuit, then, might be designed to provide the necessary electrical energy to the pump to create the desired water flow rate.  In this chapter, we introduce all fundamental concepts associated with circuit analysis. Electrical circuits are constructed in order to direct the flow of electrons to perform a specific task. In other words, in circuit analysis and design, we are concerned with transferring electrical energy in order to accomplish a desired objective. For example, we may wish to use electrical energy to pump water into a reservoir; we can adjust the amount of electrical energy applied to the pump to vary the rate at which water is added to the reservoir. The electrical circuit, then, might be designed to provide the necessary electrical energy to the pump to create the desired water flow rate. 
  
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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//). 
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 {{ :learn:courses:real-analog-chapter-1:chapter1au.png |Exercise image.}} {{ :learn:courses:real-analog-chapter-1:chapter1au.png |Exercise image.}}
 +
 +[[{}/learn/courses/real-analog/start|Back to Landing Page]]
 +[[{}/learn/courses/real-analog-chapter-2/start|Go to Chapter 2]]