Respuesta :
Answer:
The circuit impedance is 3.84 phase 38.65º and the voltage across the capacitor is 0.13 phase -128.65º V.
Explanation:
Since the voltage given to us was Vs = 5*cos(5t) V and it is the form of V = Vmax*cos(omega*t) V we can extract the frequency omega, wich is w = 5 rad/s.
In the circuit we have a capacitor and a inductor. The capacitor impedance is negative and it is inversely proportional to the frequency, while the inductor impedance is positive and directly proportional to the frequency. So we have:
Z = R + jw*L - j/(wC)
Z = 3 + j*5*0.5 - j/(5*2)
Z = 3 + j*2.5 - j*0.1 = 3 + j*2.4 Ohm = 3.84 phase 38.65º Ohm
To find out the voltage across the capacitor we can use a voltage divider equation that is:
Vcapacitor = [Zcapacitor/(R + Zinductor + Zcapacitor)] * Vsource
Vcapacitor = [(-j0.1)/(3 + j2.4)]*Vsource
Vcapacitor = [(0.1 phase -90º)/(3.84 phase 38.65º)]*5 phase 0º
Vcapacitor = [0.026 phase -128.65º]* 5 phase 0º
Vcapacitor = 0.13 phase -128.65º V
Given Information:
Source voltage = Vs = 5cos(5t) V
Resistance = R = 3 Ω
Capacitance = C = 2 Farads
Inductance = L = 0.5 H
Frequency = ω = 5 rad/sec
Required Information:
Equivalent impedance = Zeq = ?
Voltage accross capacitor = Vcap = ?
Answer:
Equivalent impedance = Zeq = 3.84 < 38.66° Ω
Voltage accross capacitor = Vcap = 0.13 < -128.66° V
Explanation:
The source voltage = 5cos(5t)
In polar form,
Vs = 5 < 0° V
(a) The equivalent impedance is the sum of resistance, capacitive reactance, and inductive reactance
Zeq = R + Xc + XL
Where Capacitive reactance is given by
Xc = 1/jω*C
Xc = 1/j*5*2
Xc = -j0.1 Ω
in polar form,
Xc = 0.1 < -90° Ω
The inductive reactance is given by
XL = jω*L
XL = j*5*0.5
XL = j2.5 Ω
in polar form,
XL = 2.5 < 90° Ω
Therefore, the equivalent impedance can now be found
Zeq = R + Xc + XL
Zeq = 3 - j0.1 + j2.5
Zeq = 3 + j2.4 Ω
In polar form,
Zeq = 3.84 < 38.66° Ω
(b) The voltage across the capacitor can be found by using the voltage divider rule
Vcap = Vs [ Xc/Zeq]
Where Vs is the source voltage, Xc is the impedance of capacitor, and Zeq is the impedance of overall circuit.
Vcap = (5<0) [0.1<-90°/3.84<38.66°]
Vcap = 0.13 < -128.66° V
