3) [8 pts] For a frequency of 5000 rad/sec, answer the following
questions
a) If a load impedance Z Load = 250 + j 250 Ω consists of two
elements in series (a resistor in series
with an inductor OR a resistor in series with a capacitor),
I.
What is the value of the resistor?
II.
What is the value of the inductor (in mH) or the capacitor (in μ F
)?.
b) If the impedance of a capacitor iscapacitor?
Z L = 0 − j 50 Ω . What is the capacitance value ( in uF) of
the
3) [8 pts] For a frequency of 5000 rad/sec, answer the following questions a) If a...
An LC circuit consists of a 3.10 mH inductor and a 5.07 uF capacitor. (a) Find its impedance at 60.8 Hz. (b) Find its impedance at 11.6 kHz. Ω (C) Now a 36.6 12 resistor is added in series with the inductor and capacitor. Find the impedance of this RLC circuit at 60.8 Hz and 11.6 kHz. At 60.8 Hz At 11.6 kHz (d) Compare the values of Z in parts (a) and (b) with those found in part (c),...
The resonant frequency (ω0) of series RLC circuit is 44.721 kilo-rad/sec and the damped oscillation frequency, (β) of the same circuit is 33.166 kilo-rad/sec. Determine the value of resistor used in this circuit. The inductor used has a value of 50mH and capacitor used is 0.01 µF. Express answer in kilo-ohms. Round to the nearest integer.
Answer these questions and submit them before your lab session. 1. Calculate the reactance of a 7 H capacitor at a frequency of 250 Hz. 2. If an RL circuit has a 50 Ω resistor in series with a 7 mH inductor, what will its impedance be at 500 Hz? 3. An RL circuit has a 5 kΩ resistor and a 1 H inductor. At what frequency will the current lag the voltage by π/4? 4. An RL circuit has...
#3. A 250-ohm resistor, a 0.450 H inductor, and a 6.45 uF capacitor are connected in series across an emf with a 36.0 volt amplitude and an angular frequency of 260 rad/s. a. What is the impedance? b. What is the current amplitude? c. What is the phase angle between the voltage and current? Does the voltage lag or lead? d. What are the voltage amplitudes across the resistor, inductor and capacitor individually? e. What is the power? f. What...
Matlab Code if available Problem 04 mm us(0 In the circuit, the voltage source Vs(t) frequency, amplitude and phase are 22 kHz, 10 V and 0.25 rad correspondingly; Rs=4 Ohm, Ri=12 Ohm, R2=9 Ohm, R3=2 Ohm, L1=0.11 mH, L2=0.13 mH, C= 1.4 uF ("u"="micro"). Part A. Using any appropriate techniques, find the parameters of Thevenin equivalent circuit with respect to the ports "a" and "b". Present the Thevenin source in the polar form and the Thevenin impedance in the algebraic...
Question 8 2 pts An electric field given by E = 2x y2 i + yx?j + 3 zy? k pierces the Gaussian cube shown below. How much charge, in nC, is enclosed in the cube? (E is in N/C,,y and zin meters). Take En = 8.85 x 10-12 C2/Nm2. y (1,3,0) (4,3,0) (1,3,3) (4, 3, 3) (4,0,0) x (1,0,3) (4,0.3) Equations: I enclosed =o total +0 left +0 from bottom top back right E = 8.85 x 10-12 Nm...
a. b. C. A 250-ohm resistor, a 0.450 H inductor, and a 6.45 uF capacitor are connected in series across an emf with a 36.0 volt amplitude and an angular frequency of 260 rad/s. What is the impedance? What is the current amplitude? What is the phase angle between the voltage and current? Does the voltage lag or lead? What are the voltage amplitudes across the resistor, inductor and capacitor individually? What is the power? f. What is the resonant...
Q.2 A 2002 resistor(R), a 150mH inductor (L), and a 2-uF capacitor (C) are in series. 1 Given that Z=R+ j27fL+ j27C (i) Find the total impedance (Z) in rectangular form in degree at frequency (f) 400Hz. (ii) Find the modulus and argument in degree of the total impedance.
1) The impedance (Z) of a 220 mH inductor is j59 Ω in the frequency domain. What is the driving frequency? This question cannot be answered. Inductors do not have positive imaginary components 42.7 Hz 20 KHz 0.723 Hz 0.012 Hz 2) What is the XL for a 3.3 μH inductor at 500 KHz? 10.4 Ω -j10.4 Ω j10.4K Ω j10.4 Ω -j10.4 Ω 3) What is a component value given its complex Z of –j27 Ω at a frequency...
You have a resistor of resistance 250 Ω , an inductor of inductance 0.370 H , a capacitor of capacitance 5.90 μF and a voltage source that has a voltage amplitude of 26.0 V and an angular frequency of 280 rad/s . The resistor, inductor, capacitor, and voltage source are connected to form an L-R-C series circuit. Part F What is the voltage amplitude across the inductor? Part G What is the voltage amplitudes across the capacitor? Part H Explain...