Problem 1
Given this voltage waveform applied across a 1 μF capacitor, find the current through the capacitor. | |
DC Circuits >
Energy Storage Elements >
Current-Voltage Relationship of Capacitors
Keywords:
Length: 7:44
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_capacitorVi_ex1
ID: 95
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Problem 2
Given this current waveform applied to a 10μF capacitor, find the capacitor's voltage as a function of time, given that v(0) = 0 volts. | |
DC Circuits >
Energy Storage Elements >
Current-Voltage Relationship of Capacitors
Keywords:
Length: 8:38
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_capacitorVi_ex2
ID: 96
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Problem 3
In the circuit below, v(t) = 10e-1000t V. Assume that the 10μF capacitor is fully discharged at t=0, and find v1(t), v2(t), i1(t) and i2(t). | |
DC Circuits >
Energy Storage Elements >
Current-Voltage Relationship of Capacitors
Keywords:
Length: 8:44
Date Added: 2006-08-29 13:31:31
Filename: energyStorage_capacitorVi_ex3
ID: 97
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Problem 1
The input waveform vi(t) is applied to this circuit as shown. Find the output voltage vo(t) and the current io(t). | |
DC Circuits >
Energy Storage Elements >
Capacitors and Op Amps
Keywords:
Length: 9:59
Date Added: 2006-08-29 13:31:31
Filename: energyStorage_capacOpAmp_ex1
ID: 98
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Problem 2
Given the input voltage shown in the figure below, determine vo(t). Assume the capacitor is fully discharged. | |
DC Circuits >
Energy Storage Elements >
Capacitors and Op Amps
Keywords:
Length: 9:10
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_capacOpAmp_ex2
ID: 249
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Problem 1
Find the equivalent capacitance across terminals a and b. | |
DC Circuits >
Energy Storage Elements >
Equivalent Capacitance
Keywords:
Length: 5:26
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_equivCapac_ex1
ID: 99
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Problem 2
Find the equivalent capacitance seen by the voltage source. | |
DC Circuits >
Energy Storage Elements >
Equivalent Capacitance
Keywords:
Length: 5:39
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_equivCapac_ex2
ID: 100
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Problem 1
Find the equivalent inductance across terminals a and b. | |
DC Circuits >
Energy Storage Elements >
Equivalent Inductance
Keywords:
Length: 4:41
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_equivInduc_ex1
ID: 101
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Problem 2
Given that i(t) = e^(-1000t) and i1(0) = 0A, find v(t), i1(t), i2(t), and v2(t) for t>0. | |
DC Circuits >
Energy Storage Elements >
Equivalent Inductance
Keywords:
Length: 10:13
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_equivInduc_ex2
ID: 102
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Problem 1
Given the waveform of current through an inductor, find the voltage across the inductor as a function of time. | |
DC Circuits >
Energy Storage Elements >
Current-Voltage Relationship of Inductors
Keywords:
Length: 11:02
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_inductorVi_ex1
ID: 103
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Problem 2
Given the voltage waveform applied across an inductor and that i(0) = 0, find i(t) for a 5H inductor. | |
DC Circuits >
Energy Storage Elements >
Current-Voltage Relationship of Inductors
Keywords:
Length: 8:59
Date Added: 2007-05-23 20:24:04
Filename: energyStorage_inductorVi_ex2
ID: 104
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