Given: is(t)= 4 e-100 mA t v₁ (0) = 6V V₂ (0) = 4 V V3 (0) = 2V + 8 µF: V₂ 1₂ 2.4μF V1 # + 2 μF V3 b • • Find the equivalent capacitance Cequ seen by the current source Find the voltage v₁ (t), the voltage between (a) and (b), as shown Find the current i(t) as shown . Find the current (₂ (t) as shown • Find the energy stored within 2.4 μF at t = ∞0 is (t)
Given: is(t)= 4 e-100 mA t v₁ (0) = 6V V₂ (0) = 4 V V3 (0) = 2V + 8 µF: V₂ 1₂ 2.4μF V1 # + 2 μF V3 b • • Find the equivalent capacitance Cequ seen by the current source Find the voltage v₁ (t), the voltage between (a) and (b), as shown Find the current i(t) as shown . Find the current (₂ (t) as shown • Find the energy stored within 2.4 μF at t = ∞0 is (t)
Delmar's Standard Textbook Of Electricity
7th Edition
ISBN:9781337900348
Author:Stephen L. Herman
Publisher:Stephen L. Herman
Chapter20: Capacitance In Ac Circuits
Section: Chapter Questions
Problem 5PP: Three capacitors having capacitance values of 20F,40F, and 50F are connected in parallel to a 60 -...
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Step 1: Summarize the data.
VIEWStep 2: Determine the equivalent capacitance ? ? ? ? seen by the current source.
VIEWStep 3: Determine the voltage v1(t).
VIEWStep 4: Determine the current i1(t).
VIEWStep 5: Determine the current i2(t).
VIEWStep 6: Determine the energy stored within ? 1 = 2.4 ? ? at ? = ∞ .
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