Find the exact 1012 2mll 3012 60μF 562 3pF 50m
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A: Since you have posted a question with multiple sub-parts, we will solve the first three sub-parts…
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Q: Find the Laplace transform of x(t)=-e-atu(−t)
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Q: Question 5 Solve the following differential equation: d²x dx +4+6x=12; x(0)=0, x'(0) = 0 dt² dt
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Q: In the circuit of Fig.2, Z₁-60 /-30° , and Z₂=40 /45°. Calculate the total; a) apparent power,…
A: Since you have posted a question with multiple sub-parts, we will solve the first three sub-parts…
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A: Note: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question…
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A: Implementation of given state diagram using D-flipflops:
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Q: find Zr using kr = Kr=0.4 / 45° Zo= 50 Zr-Zo Zr + Zo
A: Given Kr = 0.4∠450 Z0 = 50Ω Kr = Zr - Z0Zr + Z0 Find Zr
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Q: Find the Laplace transform of the function y(t)=-e^at u(-t)
A: In this case, the Laplace transform of the following function needs to be determined: yt=-eatu-t
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- A coil of 40 ohms resistance has an inductance of 100 mH is connected in parallel with a 30 microfarad capacitor. What is the resonance frequency of the circuit? Ans. 66.3 HzA coil of resistance 100ohms and inductance 100uH is connected in series with 100pf capacitor .the circuit is connected to a 10v variable frequency supply. Calculate the resonance frequency, current at resonance, voltage across L and c at resonance and Q-factor of the circuit.Why does the equivalent impedance (value get: 558.581) and the equivalent resistance (value get: 500.125) from the not the same in Resonance Experiment? Explain why...
- A coil of resistance 20 Q and inductance of 300 mH is connected in parallel with a capacitance of 200 uF. The combination is connected across 200 V, variable frequency power supply. At what frequency will the parallel circuit resonate and what would be the current at resonance? [Ans 19.26 Hz, 0.431 A]A coil of inductance 0.20H and resistance 60 ohm is connected in parallel with a 20μF capacitor across a 20V, variable frequency supply. Calculate (a) the resonant frequency, (b) the dynamic resistance, (c) the current at resonance and (d) the circuit Q-factor at resonance.For the circuit below: (a) Find impedance Zt at resonance (b) Circuit voltage at resonance (c) Value of current IL and IC at resonance
- Please Help For the circuit shown in the figure, a) Determine the voltage gain (Vout/Vin). b) Make the magnitude and phase Bode diagrams for the voltage gain. c) Calculate the exact values of amplitude and phase for w = 20 rad/s.70) A coil of resistance 25 Ω and inductance 150mH is connected in parallel with a 10 μF capacitor across a 60V, variable frequency supply. Calculate (a) the resonant frequency, (b) the dynamic resistance, (c) the current at resonance, (d) the Q-factor at resonance.HIGH VOLTAGE(Can you explain in detail? Thank you) Q1 : A 100 kVA, 50 Hz, 230/50 kV testing transformer has an 10% leakage reactance and a 2% winding resistance. A cable of capacitance 100 nF is to be tested at 300 kV using this transformer as part of the resonance circuit. Determine the value of the inductance (with a Q-factor of 20) required to obtain resonance and the value of the input voltage required to obtain the required voltage.
- A coil of inductance 0.20H and resistance 60[1] is connected in parallel with a 20μF capacitor across a 20V, variable frequency supply. Calculate (a) the resonant frequency, (b) the dynamic resistance, (c) the current at resonance and (d) the circuit Q-factor at resonance.A 100 kVA, 50 Hz, 230/50 kV testing transformer has an 10% leakage reactance and a 2% winding resistance. A cable of capacitance 100 nF is to be tested at 300 kV using this transformer as part of the resonance circuit. Determine the value of the inductance (with a Q-factor of 20) required to obtain resonance and the value of the input voltage required to obtain the required voltage.calculate the prices of wq, Q0, bandwidth in the following series. define lm at w = wq! if A=5, 0,B=0,4, and AB=54