explain why the current to a capacitor need not be a continuous fun action of time...
explain why the current to a capacitor need not be a continuous fun action of time (jump discontinuities are allowed).
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explain why the current to a capacitor need not be a continuous
fun action of time...
Explain why a capacitor cannot pass a direct current but can easily pass an alternate current.
Explain why a capacitor cannot pass a direct current but can easily pass an alternate current.
Need calculations 1. What is the current through capacitor C1? Why? 2. Compute the voltage across...
Need calculations
1. What is the current through capacitor C1? Why?
2. Compute the voltage across R2. Does it agree with your SPICE
simulation?
3. Compute the voltage across C1. Does it agree with your PSPICE
simulation?
4. What is the current through capacitor C2? Why?
5. Compute the voltage across C2. Does it agree with your PSPICE
simulation?
. . 220น . | . . . V1 - - - / 2, 30 - . . . . 24...
12. Pind the limit (if it exists). If it doesn't exist explain why. Sometr) when -...
12. Pind the limit (if it exists). If it doesn't exist explain why. Sometr) when - (311) 13. Use the graph to determine the limits and discuss the continuity at x=-1 + 1 - > -3 -2 -1 1 2 3 lim f(x) lim (x) lim/(x) Is The above function continuous at x=-1? 14. Find the values of x (if any) at which the function is not continuous. Which of the discontinuities is removable? f(x)= 7+67+8
2) (15 points) Consider a voltage signal v(t)Vocos(wt) (a) Consider applying v(t) across a capacitor C (i) What's the current into the capacitor? (ii) Plot the current and the voltage in the time...
2) (15 points) Consider a voltage signal v(t)Vocos(wt) (a) Consider applying v(t) across a capacitor C (i) What's the current into the capacitor? (ii) Plot the current and the voltage in the time domain and draw their respective phasors in the complex plane. (ii) Does the current lead or lag the voltage? Explain intuitively. (b) Repeat (i), (ii), and (ii) for part (a) but with an inductor, L, instead of a capacitor. (c) Repeat (i), (ii), and (ii) for part...
Why are myelin sheaths useful during saltatory conduction? A) Action potentials can occur faster when surrounded...
Why are myelin sheaths useful during saltatory conduction? A) Action potentials can occur faster when surrounded by myelin sheaths. B) Myelin sheaths force current to jump over the sheath, creating a "skipping" pattern to the current. C) Myelin sheaths minimize loss of depolarization as current flows through them.
Case Study Fun-Spot Fun Park began as a small amusement park in 1985
Case Study Fun-Spot Fun Park began as a small amusement park in 1985. With nothing more than a merry-go-round, a slide, pony rides, and an ice cream stand, Fun-Spot grew into a popular family attraction with 20 rides, a restaurant, and an outdoor performing arts theater. “My wife, Gail, and I didn’t know what we were getting into,” commented Ron Hart, the owner. “We just knew that weekenders coming to the lakes in our rural area represented an untapped market.”...
3 Capacitor Discharging Current The capacitor voltage versus time in a discharging series RC circuit, as...
3 Capacitor Discharging Current The capacitor voltage versus time in a discharging series RC circuit, as shown in the Background Information Figure 2, is Vo(t) = V, expl-Roc), +20 (3) where V, is the source voltage in Volts, exp(x) is the exponential functione, Rp is the discharging resistance in Ohms (N), C is the capacitance in Farads. To = Rp is the discharging time constant in seconds. Derive an expression for the capacitor discharging current versus time, .(t), in terms...
I NEED HELP WITH QUESTIONS #7 & #8 PLEASE! :) Capacitor Plot: Current Peak- 132.239 mA...
I NEED HELP WITH QUESTIONS #7 & #8 PLEASE! :)
Capacitor Plot: Current Peak- 132.239 mA , 111.495 ms Voltage
Peak- 105.232 V , 123.975 ms
Resistor Plot: Current Peak- 132.239 mA , 111.495 ms Voltage
Peak- 132.239 V , 131.335 ms
A/C source Plot: Current Peak- 132.238 mA , 101.575 ms Voltage
Peak- 169 V , 102.535 ms
► 07: How does the location of the current peak compare to the location of the voltage peak in each plot...
A charged capacitor and an inductor are connected in series. At time t=0, the current is...
A charged capacitor and an inductor are connected in series. At time t=0, the current is zero, but the capacitor is fully charged. If T is the period of the resulting oscillations in the LC circuit, the next time after T=0 where the energy stored in the magnetic field of the inductor will be a maximum is:
Explain the action need to be taken to resolve upon winding up a partnership.
Explain what debit balance on the capital account indicateExplain the action need to be taken to resolve upon winding up a partnership.
Need calculations
1. What is the current through capacitor C1? Why?
2. Compute the voltage across R2. Does it agree with your SPICE
simulation?
3. Compute the voltage across C1. Does it agree with your PSPICE
simulation?
4. What is the current through capacitor C2? Why?
5. Compute the voltage across C2. Does it agree with your PSPICE
simulation?
. . 220น . | . . . V1 - - - / 2, 30 - . . . . 24...
12. Pind the limit (if it exists). If it doesn't exist explain why. Sometr) when - (311) 13. Use the graph to determine the limits and discuss the continuity at x=-1 + 1 - > -3 -2 -1 1 2 3 lim f(x) lim (x) lim/(x) Is The above function continuous at x=-1? 14. Find the values of x (if any) at which the function is not continuous. Which of the discontinuities is removable? f(x)= 7+67+8
2) (15 points) Consider a voltage signal v(t)Vocos(wt) (a) Consider applying v(t) across a capacitor C (i) What's the current into the capacitor? (ii) Plot the current and the voltage in the time domain and draw their respective phasors in the complex plane. (ii) Does the current lead or lag the voltage? Explain intuitively. (b) Repeat (i), (ii), and (ii) for part (a) but with an inductor, L, instead of a capacitor. (c) Repeat (i), (ii), and (ii) for part...
3 Capacitor Discharging Current The capacitor voltage versus time in a discharging series RC circuit, as shown in the Background Information Figure 2, is Vo(t) = V, expl-Roc), +20 (3) where V, is the source voltage in Volts, exp(x) is the exponential functione, Rp is the discharging resistance in Ohms (N), C is the capacitance in Farads. To = Rp is the discharging time constant in seconds. Derive an expression for the capacitor discharging current versus time, .(t), in terms...
I NEED HELP WITH QUESTIONS #7 & #8 PLEASE! :)
Capacitor Plot: Current Peak- 132.239 mA , 111.495 ms Voltage
Peak- 105.232 V , 123.975 ms
Resistor Plot: Current Peak- 132.239 mA , 111.495 ms Voltage
Peak- 132.239 V , 131.335 ms
A/C source Plot: Current Peak- 132.238 mA , 101.575 ms Voltage
Peak- 169 V , 102.535 ms
► 07: How does the location of the current peak compare to the location of the voltage peak in each plot...
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