In Inductive circuit, XL > Xc and current lags behind source voltage. In capacitive circuit Xc > XL and current leads the source voltage. For XL = Xc, circuit is at resonance and current is in phase with source voltage.
b) current lags voltage, so XL > Xc
c) current leads voltage, so XL < Xc
(b) Label the following figure as being XL > Xc, XL - Xc, or XL <XC-...
Ọuick Ọuiz 32.5 Choose which figure (a), (b), or (c), represents XL 〉XC (circuit is more inductive than capacitive) max max max max Imax max
Ọuick Ọuiz 32.5 Choose which figure (a), (b), or (c), represents XL 〉XC (circuit is more inductive than capacitive) max max max max Imax max
(S%) Problem 13: In a simple AC circuit shown on the right, C 0.075 F. L 0.55 H, R. 36 ma sin(cot), where I, 5.5 A and co 35 rad/s max Randomized Variables C 0.075 F L 0.55 H R 36 O Imax 5.5 35 rad/s AV Otheexpertta.com A 10% Part (a) Express the capacitive reactance,XC, in terms of C, and co A 10% Part (b) Calculate the numerical value of Xa in ohms. A 10% Part (c Express the...
frequency=5000
a) Calculate values for XL,Xc and ZT.
b) Calculate I (phasor format) for the circuit.
c) Calculate the voltage (phasor format) drop across the
resistor (VR1), the inductor (VL1 ) and capacitor (Vc1)
xsci L1 15mH 0.033 R1 Fcn Gen RS 50Ω V1 510Ω
06) Find the Thevenin equivalent circuit at terminal a-b Let V1-50<300V , XL>J20 Ω, Xc-*)10 Ω, and R1-10 Ω for the following circuit. R1 ZTH- V1 (
In a RLC series circuit, the phasor diagram below shows current and resulting voltage phasors, as representing XL > Xc Xi = Xc or XL < Xc (not in order). Describe figure (c). O AVX (b) 1. X,>xc 2. X2 = x 3. x,<xc
You cross the following individuals A/a;B/B;XC/Xc X a/a;b/b;XC/Y What proportion of the offspring will be a male showing all dominant phenotypes? Please show your work.
please do 5 and 6
E 100 V 20° R 222 XL 50 Xc 100 5. For the circuit above, calculate: a. Total admittance (Y) b. Total conductance (G) c. Total susceptance (B) d. Find IT, IR, IL & IC e. Total Apparent, Reactive & Real Power (S, Q & P) f. Power Factor (pf) g. Draw the complete admittance triangle with G, -JBL +jBc and Yt all shown and quantified. h. Draw the complete phasor diagram with E, I,...
1) A buck chopper like that in Figure I has the following data 250 μΗ, D E 40 V, T Find: 50 μ. L 0.4, C-60 μF, and R 10 Ω. ) the value of L necessary for the continuous current mode (b) Vc (c) Imax and Imin (d) Av r like that in Figure 1 requires an output power of 100 at an output voltage of 24 V from a 60-V supply. The switching fre- quency is 60 kHz....
An RLC circuit such as that of Figure (a) has R = 5.25 Ω, C =
25.1 μF, L = 1.47 H, and εm = 37.9 V. (a) At what angular frequency
ωd will the current amplitude have its maximum value, as in the
resonance curves of Figure (b)? (b) What is this maximum value? At
what (c) lower angular frequency ωd1 and (d) higher angular
frequency ωd2 will the current amplitude be half this maximum
value? (e) What is...
i have done part a and b i need help with
the rest
An RLC circuit such as that of Figure (a) has R = 4.00 2, C = 27.0 pF, L = 1.32 H, and Em = 43.7 V. (a) At what angular frequency od will the current amplitude have its maximum value, as in the resonance curves of Figure (b)? (b) What is this maximum value? At what (c) lower angular frequency wd1 and (d) higher angular frequency...