The current shown in the figure is applied to a 5 μF capacitor. The initial voltage...
The current shown in (Figure 1) is applied to a 600 nF capacitor. The initial voltage on the capacitor is zero. Part A Find the charge on the capacitor at t = 30 us. Express your answer to three significant figures and include the appropriate units. 4 = 4.50 C Submit Previous Answers Correct Part B Find the voltage on the capacitor at t = 50 js. Express your answer to three significant figures and include the appropriate units. HA...
6.13 The waveform for the current in a 70-μF capacitor is shown in the figure below. Determine the waveform for the capacitor voltage. The waveform for the current in a 70-uF capacitor is shown in the figure below. Determine the waveform for the capacitor voltage i(t) (mA) 14 0 10 20 30 40 t (ms) t <0ms t < 40 ms t z 40ms v (t) -2500? V -4 V 0 t <0ms 2500t V 0 t < 40 ms...
MULTISIM 6,20 The current shown in Fig. P6.20 is applied to a 250 m PSPICE capacitor. The initial voltage on the capacitor is zero a) Find the charge on the capacitor at t = 30 us b) Find the voltage on the capacitor at t = 50 us. c) How much energy is stored in the capacitor by this current? Figure P6.20 i(mA) 400 5 10 20 30 40 50 -300
Review Constants The current shown in (Figure 1) is applied to a 350 nF capacitor. The initial voltage on the capacitor is zero. Part A Find the charge on the capacitor at t = 30 jus Express your answer to three significant figures and include the appropriate units. IT μΑ q= 25.103 O Submit Previous Answers Request Answer Part B Find the voltage on the capacitor at t = 50 js. Express your answer to three significant figures and include...
A current i(t) = 220 sin (20pi t) mA is applied to a capacitor of C = 20000/pi mu F, as shown in the figure below: a) Knowing that i(t) = C dv/dt, integrate both sides of the equation to determine the voltage v(t). You may assume that the initial voltage is v(0) = 0.55 Volts. b) Plot one cycle of the voltage v(f) found in part a) and clearly indicate the amplitude, frequency, and period on the plot. Also,...
The graph below shows the voltage across a 27 μF capacitor vs. time. Find the current (ix), the power delivered (px) and the energy stored (wx) at time tx = 15 s. The graph below shows the voltage across a 27 μF capacitor vs. time. Find the current (W, the power delivered (px) and the energy stored (wa) at time 4-15 s. 30 14 t 19 t(s) | p,- wx = -50 PMcL Version 2.0.0
The voltage v(t) shown in the accompanying Figure (a) is given by the graph shown in the accompanying Figure (b). If iL(0) =0, answer the following questions: (a) How much energy is stored in the inductor at t = 2 s? (b) How much power is supplied by the source at t = 3 s? (c) What is i(t = 7 s)? and (d) How much power is absorbed by the inductor at t = 2 s? Please show all...
In the circuit shown, find the voltage of the C=66 μμF capacitor. Find the energy stored on the 64 μμF capacitor. In the circuit shown, find the voltage of the C-66 μF capacitor 15 V 64 μF Answer: Choose. 7 Find the energy stored on the 64 μF capacitor. Answer: Choose.. ▼
A 17.0-μF capacitor is charged by a 130.0-V power supply, then disconnected from the power and connected in series with a 0.260-mH inductor. Calculate the oscillation frequency of the circuit. Calculate the energy stored in the capacitor at time t=0 ms (the moment of connection with the inductor). Calculate the energy stored in the inductor at t = 1.30 ms.
A 11.6 μF capacitor in a heart defibrillator unit is charged fully by a 12000 V power supply. Each capacitor plate is connected to the chest of a patient by wires and flat "paddles," one on either side of the heart. The energy stored in the capacitor is delivered through an RC circuit, where R is the resistance of the body between the two paddles. Data indicate that it takes 76.3 ms for the voltage to drop to 20.5 V...