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View All : Main > Courses > Rose-Hulman Institute of Technology > ES203 - Electrical Systems > Week 7

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	Problem 2 Use repeated source transformations to convert this circuit into Norton form.
	DC Circuits > Source Transformations > Single Source Keywords: independent current source, resistor , source transformation , algebra Length: 3:10 Date Added: 2007-05-23 20:24:04 Filename: srcTrans_res_ex2 ID: 41

	Problem 3 Use repeated source transformations to convert this circuit into Thèvenin form.
	DC Circuits > Source Transformations > Single Source Keywords: independent voltage source, resistor , source transformation , algebra Length: 2:45 Date Added: 2007-05-23 20:24:04 Filename: srcTrans_res_ex3 ID: 42

	Problem 4 Use repeated source transformations to convert this circuit into Thevenin form.
	DC Circuits > Source Transformations > Multiple Sources Keywords: Independent Current Source, Independent Voltage Source, Resistor , Source Transformations, Parallel Resistor and Current Source Combinations , Algebra Length: 3:35 Date Added: 2006-08-29 13:31:25 Filename: srcTrans_ex4 ID: 69

	Problem 5 Use repeated source transformations to convert this circuit into Thevenin form.
	DC Circuits > Source Transformations > Multiple Sources Keywords: Independent Current Source, Independent Voltage Source, Resistor , Source Transformations, Series and Parallel Resistor and Current Source Combinations , Algebra Length: 4:53 Date Added: 2007-05-23 20:24:04 Filename: srcTrans_ex5 ID: 77

	Problem 6 Use repeated source transformations to convert this circuit into Norton form.
	DC Circuits > Source Transformations > Multiple Sources Keywords: Independent Current Source, Independent Voltage Source, Resistor , Source Transformations, Parallel Resistor and Current Source Combinations , Algebra Length: 3:55 Date Added: 2007-05-23 20:24:04 Filename: srcTrans_ex6 ID: 78

	Problem 1 Find the Thèvenin equivalent circuit at the terminals S-T.
	DC Circuits > Thèvenin Equivalents > Dependent Sources Exclusively Keywords: Dependent Voltage Source, Resistor , Thèvenin Equivalents, KVL, KCL , Algebra Length: 5:59 Date Added: 2007-05-23 20:24:04 Filename: thev_dep_ex1 ID: 88

	Problem 2 Find the Thèvenin equivalent circuit at the terminals U-V.
	DC Circuits > Thèvenin Equivalents > Dependent Sources Exclusively Keywords: Dependent Voltage Source, Resistor , Thèvenin Equivalents, KVL, KCL , Algebra Length: 3:17 Date Added: 2007-05-23 20:24:04 Filename: thev_dep_ex2 ID: 89

	Problem 1 Find the Thèvenin equivalent at the terminals A-B. Use two different methods to find the Thèvenin resistance: (a) As a ratio of short-circuit current and open-circuit voltage, and (b) as the lookback resistance.
	DC Circuits > Thèvenin Equivalents > Independent Sources Keywords: Independent Voltage Source, Resistor , Thèvenin Equivalents, Voltage Divider, Resistor Combination, Lookback Resistance , Algebra Length: 5:09 Date Added: 2007-05-23 20:24:04 Filename: thev_ind_ex1 ID: 90

	Problem 2 Find the Thèvenin equivalent circuit to the left of the terminals A-B.
	DC Circuits > Thèvenin Equivalents > Independent Sources Keywords: Independent Voltage Source, Resistor , Thèvenin Equivalents, Lookback Resistance , Algebra Length: 2:38 Date Added: 2007-05-23 20:24:04 Filename: thev_ind_ex2 ID: 91

	Problem 3 Find the Thèvenin equivalent circuit at the terminals A-B.
	DC Circuits > Thèvenin Equivalents > Independent Sources Keywords: Independent Current Source, Resistor , Thèvenin Equivalents, Lookback Resistance, Resistor Combinations, Current Divider , Algebra Length: 4:52 Date Added: 2007-05-23 20:24:04 Filename: thev_ind_ex3 ID: 92

	Problem 4 Find the Thèvenin equivalent circuit at the terminals E-F.
	DC Circuits > Thèvenin Equivalents > Independent Sources Keywords: Independent Current Source, Resistor, Independent Voltage Source , Thèvenin Equivalents, Lookback Resistance, Resistor Combinations, Superposition, Delta-Wye Conversion, Current Divider , Algebra Length: 8:34 Date Added: 2007-05-23 20:24:04 Filename: thev_ind_ex4 ID: 93

	Problem 1 Find the Thèvenin equivalent circuit at the terminals G-H.
	DC Circuits > Thèvenin Equivalents > Independent and Dependent Sources Keywords: Independent Current Source, Resistor, Independent Voltage Source , Thèvenin Equivalents, KVL , Algebra Length: 5:52 Date Added: 2007-05-23 20:24:04 Filename: thev_inddep_ex1 ID: 94

	Problem 1 Use repeated source transformations to convert this circuit into Norton form.
	DC Circuits > Source Transformations > Single Source Keywords: independent current source, resistor , source transformation , algebra Length: 2:24 Date Added: 2007-05-23 20:24:04 Filename: srcTrans_res_ex1 ID: 254

	Problem 1 Use superposition to determine the voltage V_X. State which source influences V_X the most.
	DC Circuits > Superposition > Two Sources Keywords: independent current source, independent voltage source, resistor , superposition , algebra Length: 5:38 Date Added: 2007-05-23 20:24:04 Filename: super_ex1 ID: 255

	Problem 2 Use superposition to determine the current I. State which source influences I the most.
	DC Circuits > Superposition > Three Sources Keywords: independent current source, independent voltage source, resistor , superposition , algebra Length: 9:04 Date Added: 2007-05-23 20:24:04 Filename: super_ex2 ID: 256

	Problem 3 Use superposition to determine the voltage V_X.
	DC Circuits > Superposition > Two Sources Keywords: battery, resistor , superposition , algebra Length: 5:28 Date Added: 2007-05-23 20:24:04 Filename: super_ex3 ID: 257

	Problem 2 Find the Norton equivalent circuit at the terminals Q-R. Express all complex values in your answer in both rectangular and polar form.
	AC Circuits > Phasors > Norton Equivalents Keywords: Length: 3:38 Date Added: 2007-07-26 11:43:37 Filename: ac_phasors_norton_ex2_eng ID: 340

	Problem 2 Find the Thevenin equivalent circuit at the terminals Q-R. Express all complex values in your answer in both rectangular and polar form.
	AC Circuits > Phasors > Thevenin Equivalents Keywords: Length: 3:01 Date Added: 2007-07-26 13:11:27 Filename: ac_phasors_thev_ex2_eng ID: 345

	Problem 1 Find the Norton equivalent circuit at the terminals F-G. Express all complex values in your solution in both rectangular and polar form.
	AC Circuits > Phasors > Norton Equivalents Keywords: Length: 3:25 Date Added: 2007-07-27 10:17:26 Filename: ac_phasors_norton_ex1_eng ID: 373

	Problem 1 Find the Thevenin equivalent circuit at the terminals F-G. Express all complex values in your solution in both rectangular and polar form.
	AC Circuits > Phasors > Thevenin Equivalents Keywords: Length: 3:57 Date Added: 2007-07-27 11:09:03 Filename: ac_phasors_thev_ex1_eng ID: 376

	Problem 1 Determine the impedance Z_L that results in the maximum average power transferred to Z_L. What is the maximum average power transferred to the load impedance?
	AC Circuits > Power > Maximum Power Tranfer Keywords: Length: 7:37 Date Added: 2007-08-03 14:28:43 Filename: ac_power_maxtransfer_ex1_eng ID: 441

	Problem 2 Determine settings of R and L that will result in the maximum average power transferred to R if i_s = 1 cos(1000t) mA and v_s = 30 cos(1000t+30°) V. What is the maximum average power transferred to R?
	AC Circuits > Power > Maximum Power Tranfer Keywords: Length: 8:12 Date Added: 2007-08-03 14:28:52 Filename: ac_power_maxtransfer_ex2_eng ID: 442