Determine v(t) using phasor techiques. Sketxh v(t) in the time domain.
Determine v(t) using phasor techiques. Sketxh v(t) in the time domain. v(t) C 0.2 nF -...
Put the voltage source into phasor notation and the current source into time-domain signal. V(t) = 20 · cos(10t + 30°) am' 05-06 -- I = 40 Z50° 0 = 100 rad/s i(t) =
3. (15 pts) Determine v, in the following figure as a phasor and in the time domain. 22 122 8cos(t +45°) V 0.5 F 29 1H VL
In the circuit shown below, apply nodal analysis in the phasor domain to determine the current flowing out of the source on the right side, name it is (a) in phasor-domain, 1:1 (b) and in time-domain, is). 250 5923 ( 21 cos 105 V +1FMF 10.5 cos 101©
In the circuit shown below, apply nodal analysis in the phasor domain to determine the currentie (a) in phasor-domain, Ix, (b) and in time-domain, ix(1). SO 3502 1 F 503 IMF 10.5 cos 10%+v 21cos 1054 v
or practice) Describe the sinusoidal waveforms shown in the figures, using time-dependen notation: a) (4-44) (part a is for practice) b) (4-44) (rads 2 P3. (4.48) Determine the equivalent impedance in the circuit shown, given that v(t) 636 cos(3,000t +t/12), L=1.90 H C=6.8 nF P4. (4-49) In the circuit shows (for practice). given that is(t) lo cos(wt + π/6). l, 13 mA. 1,000 rad/s, C = 0.5 μF. a) State, using phasor notation, the source current, b) Determine the impedance...
5. Shown here is the time-domain depiction of a circuit containing an ideal OpAmp. a) Sketch the corresponding phasor domain circuit assuming that vę (t) = V cos(ot+0). NVcci b) Derive the phasor domain expression for the output voltage phasor, V. TO -Vcci c) Determine the time domain output voltage, v. (t).
8.22 In the phasor-domain shown in Fig. P8.22, V = 120/0° V, I = 0.3/30° A, a = 1000 rad/s, R1 = 200 92, R2 = 200 S2, R3 = 1.2 ks2, L= 0.2 H, and C = 10 uF. Determine the complex power for each passive element, and verify that conservation of energy is satisfied. in hinde Figure P8.22: Circuit for Problem 8.22.
6. (20) Transform the circuit below to phasor domain. Sketch and completely label the transformed circuit. Find the steady state value of i(t). (Hint: Find the current (I) in the phasor domain then convert it back to the time domain to find i(t).) 15 F 375mH 30 cos (377t-15°) V
Calculate vo(t) in the circuit shown in the figure below if i(t) is 200 cos(105t+ 60°) mA, i2(t) is 100 sin(105t90°) mA, and vst) 10 sin(105t) v uci) + 250 nF o(r) 52 Ohm Calculate vo(t) in the circuit shown in the figure below if i(t) is 200 cos(105t+ 60°) mA, i2(t) is 100 sin(105t90°) mA, and vst) 10 sin(105t) v uci) + 250 nF o(r) 52 Ohm
Step by step would be much appreciated Problem2. Draw the frequency (Phasor) domain and calculate V(t), for is (t) 20cos (377t+120°) A 100 mH 10 mF is(t) v() 10 Problem2. Draw the frequency (Phasor) domain and calculate V(t), for is (t) 20cos (377t+120°) A 100 mH 10 mF is(t) v() 10