VB R₁ W Ic Consider the circuit shown above, assuming ß = 75and Is = 7 x 10-16 A. If R₁ = 9.5k2, determine Vg such that Ic = 1.1 mA. (Assume V₁ = 26mV) ♦
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- transform the circuit in phasor domain representation a) Determine the value of branch current, I1 and I2b) Determine the value of voltage across resistor, R1, R2 and R3c) Determine the value of voltage across capacitor, C1 and C2d) Determine the value of voltage across inductor, L.google.com/forms/d/e/1FAlpQLScF2Wzu92iVI-tEM2nxdhqXrGdR460G4QCTxaUZZeC678PqTg/formResponse مطلوب /06 *:The potential at point P due to Q1 and Q2 is Q, = 1x10-12C 0.5 m 0.5 m Qz = 1x10-12C %3D 50 cm 0.01797 V Ov O -0.01271 V O 0.01271 V O Insert PIC F10 F11 F12 F6 F7 FB Backspace 9 € P Enter HRo. 8. For unit- slep responses A,4 find the homafor the system. chowa ahe figure , 20 see tlJae) fimetion of
- Reduce to its simplest form using msopThe point form of Ampere law is given by: Select one: O a. Curi(H) = J O b. Curl(B) = I OC Curl(V) = I Od. Curl(D) = J2, Zs Z7 Solve for: Solve for: h.) S5 i.) P6 j.) Q7 Given: E = 1002 – 90 volts Z4 = 42450 Z1 = 1200 Z5 = 5453.13N Z2 = 2436.87N Z6 = 62 – 90N Z3 = 32 - 30N Z, = 72750
- Calculate the difference A B if A=10236.87 and B=10453.13°. Show your solution graphically.V, = @sin(@t) + 2@ cos(@t). For this 6. A LRC circuit below is used to modify an input voltage applicatio, = 2 ydurāifidrentidi equation gnlist be in terms of %3D charge 9 notes to generate the general solution. No other method will be accepted. Use two decimal point accuracy. You . You must use the complimentary and particular solution method as shown in your are given that -2N@² + 20N = 2@ and -2M@² +20M = 2@¸ which you must use to simplify your particular solution when you equate coefficients. L HH Va VL Vc keo = Im sin(ot) VsAc - 100 VrmsR1 - 1kR2 - 500Rload - 1kCapacitor - 2uF Q1. How much is the capacitor voltage lagging from the AC source
- DETERMINE A. V1 if the 1000uF capacitor is not connected B. V1 is the 1000uF capacitor is connected C. Ripple voltage of problem B D. V2 if 1000uF capacitor is not connected E. V2 if 1000uF capacitor is connected F. From problem C solve for Is, Il, and Ic (OUR SUBJECT IS INDUSTRIAL ELECTRONIC)Ministry of Manpower Directorate General of Technological Education Salalah College of Technology Zlectrical Inginearina Problem - 8 Refer to the circuit below and -25V C2 N. compute the following: i) Total capacitance ii) Voltage across C, iii)Charge across C, iv)Voltage across C5 5 uF C1 5 uF 5 uF C4 5 uF C6 5 uF -16-65V. C5 5 uF (Take V, as 25V) 8-35V VT 25VQuestion 1: The measured output voltage of a cable is 7mv, for an input voltage of 15mv and the near end cross talk ratio (NEXT) of the cable is 20dB. Find attenuation and attenuation to cross talk ratio (ACR) of the cable. Question 2: 2.1. A piece of a coaxial cable has a 85 ohm characteristic impedance and a nominal capacitance is 35pF/m. what is its inductance per meter? If the diameter of the inner conductor is 0.385mm, then what is the diameter of the outer conductor? 2.2. A transmission line has inductance of 0.1 milli henry and capacitance of 1 micro farad. The line is a lossless line. Find its characteristic impedance. 1 Question 3: Enumerate solutions to decrease propagation delay. Question 4: What are the effects of delay skew on the signal? Question 5: List the capacitance values of all types of UTP, STP and COAXIAL CABLES.