The currents in each branch of a two-branched parallel circuit are given by the expression 1₁ = 7.07 sin(314t-7) and ₂ = 21.2 sin (314t-). The supply voltage is given by the expression v = 354 sin 314t. Derive a similar expression for the supply current and calculate the ohmic value of the component, assuming two pure component in each branch. State whether the reactive components are inductive or capacitive.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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The currents in each branch of a two-branched parallel circuit are given by the expression
1₁ = 7.07 sin(314t - 4) and 2 = 21.2 sin(314t-3). The supply voltage is given by the
expression v = 354 sin 314t. Derive a similar expression for the supply current and calculate
the ohmic value of the component, assuming two pure component in each branch. State
whether the reactive components are inductive or capacitive.
Transcribed Image Text:The currents in each branch of a two-branched parallel circuit are given by the expression 1₁ = 7.07 sin(314t - 4) and 2 = 21.2 sin(314t-3). The supply voltage is given by the expression v = 354 sin 314t. Derive a similar expression for the supply current and calculate the ohmic value of the component, assuming two pure component in each branch. State whether the reactive components are inductive or capacitive.
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