I NEED HELP WITH QUESTION #5 PLEASE AND CAN SOME FILL OUT THE FIRST ROW OF MY TABLE FOR 10Hz. I DONT KNOW HOW TO DO IT SO IF SOME CAN FILL OUT THE FIRST TABLE AND SHOW ME HOW, THEN I CAN FINISH THE REST. THANK YOU.
I NEED HELP WITH QUESTION #5 PLEASE AND CAN SOME FILL OUT THE FIRST ROW OF...
Can someone answer Q5 for me please??
And how do I measure Z?
5. How does the location of the current peak compare to the location of the voltage peak in each plot at 10 Hz? (Consider where the peaks occur in time) Reset Run / STOP 2uF Simulation Speed Current Speed 0 Power Brightness Current Circuit: 10Hz 1k New X S -15.933 V 100.165 ms 167.681 V capacitor, 2 UF 21.071 V resistor, 1 ko 169 V A/C source...
CAN SOMEONE ANSWER #5 & #6 PLEASE!! :))
Capacitor Plot: Current Peak- 21.059 mA , 101.41 ms Voltage
Peak- 167.681 V , 127.01 ms
Resistor Plot: Current Peak- 21.059 mA , 101.41 ms Voltage Peak-
21.071 V , 102.05 ms
A/C Source Plot: Current Peak- 21.059 mA , 101.41 ms Voltage
Peak- 169 V , 125.09 ms
IGNORE THE TABLE 9-1
> Q5: How does the location of the current peak compare to the location of the voltage peak in...
CAN SOMEONE FILL OUT THIS TABLE PLEASE?? I HAVE TRIED MULTIPLE
TIME AND I AM NOT GETTING ANYTHING RIGHT.
THANK YOU :))))
2uF 10HZ 1k PREPARATION In an AC circuit capacitors and inductors have an effective resistance that restricts the flow of current, this is known as impedance. An equivalent to Ohm's law can be written where resistance R is replaced by the impedance Z: V = 12 (9-4) where V and I are either the root mean squares or...
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...
Inductor Plot: Current Peak- 622.161 mA , 104.155 ms (this is a
data point for one of the peaks) Voltage Peak- 78.248 V , 101.275
ms (this is a data point for one of the peaks and at the top of
each peak, the voltage matches that of the overall voltage of the
inductor)
Resistor Plot: Current Peak- Nothing Voltage Peak- 62.268 V ,
103.835 ms ( at the top of each peak, the voltage matches that of
the overall...
1. From Figure 9-2 and the equations above choose which
plot best describes the impedance due to:
a. A Resistor
b. A Capacitor
PART 1: IMPEDANCE OF A CAPACITOR PREPARATION In an AC circuit capacitors and inductors have an effective resistance that restricts the flow of current, this is known as impedance. An equivalent to Ohm's law can be written where resistance R is replaced by the impedance Z: V = 12 (9-4) where V and I are either...
I need help with Q8 and Q12, the graphs and tables are for
context.
07: How does the location of the current peak compare to the location of the voltage peak in each plot at 100 Hz? -101,186 V 271 735 ms 105.232 V capacitor, 2 F 132239 V resistor 1 169 V A/C source Figure 3 Screen capture of graphs in simulator for frequency of 100 Hz >Q8: Why does the resistor voltage increase as impedance decreases? >Q9: Which...
please only answer Part C, all other parts is for any
information you may need.
- Part = Xc, solve for the frequency. That is the resonant frequency f? Using the expressions for XL and Xc given in the introduction and setting X Express your answer in terms of L, C and any relevant constant. O AXD O2 ? Submit Request Answer The amplitude of the AC current (10) in a series LRC circuit is dependent on the amplitude of...
======= Need some help with this physics question: ========= ======== THIS QUESTION, NOT #8 ================ a) Find the phase angle between the peak voltage of the resistor compared to the source voltage in problem #8, write V0(t) as a function of time t (in seconds). b) Draw all four voltages to scale and as phasors at t = 0s. c) Draw all four voltages to scale and as phasors at t = 5s. What is V0's magnitude at this time?...
A series circuit consists of an AC source of variable frequency, a 115Ω resistor, a 1.25 μF capacitor, and a 4.50 mH inductor. Find the impedance of this circuit when the angular frequency of the ac source is adjusted to (a) the resonance angular frequency; (b) twice the resonance angular frequency. If the power source provides a peak voltage of 60 V. what ore (c) the peak current in the circuit and (d) the average power dissipated in the circuit...