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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...
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....
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....
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...
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...
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...
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 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...
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...
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...
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...
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.. ▼
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