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PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 [Insert puzzler here] DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD 1 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 AGENDA ITEM Introductory Concept Survey (Individual) Analyzing the Two Resistor Series Circuit Measuring the Two Resistor Series Circuit Analyzing the Two Resistor Parallel Circuit Measuring the Two Resistor Parallel Circuit Power Dissipation in Resistors Concept Survey Re-vote (Group) Dismissal DURATION START 0:10 0:15 0:20 0:15 0:20 0:20 0:10 0:00 0:10 0:25 0:45 1:00 1:20 1:40 1:50 Announcements: • DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD 2 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 1 of 3 The potential of point a relative to point b (the magnitude of the “voltage drop” across the 30 ohm resistor) is: 1. 2. 3. 4. 5. 6 V. 4.5 V. 3 V. 1.5 V. Zero. 10 W 6V a 30 W b DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD 3 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 2 of 3 What is the ratio of I1 to I? 1. 2. 3. 4. 5. 1/4. 1/3. 1/2. 2/3. 3/4. I 10 W 6V DEAN SIEGLAFF NATHANIEL CUNNINGHAM I1 BOB FAIRCHILD 30 W 4 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 3 of 3 Which dissipates the most electric power? 1. A. 2. B. 3. Both dissipate the same amount of power. A 22 W 5V DEAN SIEGLAFF B NATHANIEL CUNNINGHAM BOB FAIRCHILD 5V 39 W 5 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 AGENDA ITEM Introductory Concept Survey (Individual) Analyzing the Two Resistor Series Circuit Measuring the Two Resistor Series Circuit Analyzing the Two Resistor Parallel Circuit Measuring the Two Resistor Parallel Circuit Power Dissipation in Resistors Concept Survey Re-vote (Group) Dismissal DURATION START 0:10 0:15 0:20 0:15 0:20 0:20 0:10 0:00 0:10 0:25 0:45 1:00 1:20 1:40 1:50 Announcements: DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD 6 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 1 of 3 The potential of point a relative to point b (the magnitude of the “voltage drop” across the 30 ohm resistor) is: 1. 2. 3. 4. 5. 6 V. 4.5 V. 3 V. 1.5 V. Zero. 10 W 6V a 30 W b DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD 7 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 2 of 3 What is the ratio of I1 to I? 1. 2. 3. 4. 5. 1/4. 1/3. 1/2. 2/3. 3/4. I 10 W 6V DEAN SIEGLAFF NATHANIEL CUNNINGHAM I1 BOB FAIRCHILD 30 W 8 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 3 of 3 Which dissipates the most electric power? 1. A. 2. B. 3. Both dissipate the same amount of power. A 22 W 5V DEAN SIEGLAFF B NATHANIEL CUNNINGHAM BOB FAIRCHILD 5V 39 W 9 of 10 PHYS-1700/2100 II5 Analyzing Resistor Networks NEBRASKA WESLEYAN UNIVERSITY SPRING 2014-2015 PROJECTION SCREEN 1 4 1 4 1 4 1 4 2 5 2 5 2 5 2 5 3 6 3 6 3 6 3 6 HAND IN TODAY’S ACTIVITIES SHEETS DEAN SIEGLAFF NATHANIEL CUNNINGHAM BOB FAIRCHILD 10 of 10
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