a discharging RC circuit has its charge reduced from 20C to 15C in 20 seconds. If the resistance of the circuit is 10 ohms. What is the capacitance.
pls show work.
a discharging RC circuit has its charge reduced from 20C to 15C in 20 seconds. If...
Question 10 5 pts An RC has a resistor with a resistance of 12 and a capacitor with a capacitance of 1.4 F. The capacitor is discharging. if the capacitor initially has a charge Q=11Cthen after how many seconds will it have a charge of 0.6875 C O 11.65 O 67.25 correct answer not shown 46.65 O 16.85 Question 11 5 pts A discharging RC circuit has its charge reduce from 20 C to 10 C in 22 s. If...
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...
a coil has a resistance of 18 ohms when its mean temperature is 20C and of 20 ohms when its mean temperature is 50C. find the mean temperature rise when its resistance is 21 ohms and the surrounding temperature is 15C.
Suppose that a particular RC series circuit has a time constant of 5.0 seconds. What does that mean in terms of the charging and discharging? How would this circuit compare to the ones you tried? Explain qualitatively and quantitatively. What could be a practical application of an RC circuit ?
A series RC circuit has a 12 volt battery connected in series to a resistor with resistance 1 ?? and a capacitor wi capacitor. The switch is thrown at t-0 seconds. a) Write the differential equation for the circuit. b) Solve the equation for the charge q() and the current io). 8. th capacitance 1 pF. There is an initial charge of 10 nC on the
13. RC circuit A RC circuit has a resistor of 100k and a capacitor of 2004. What is the time constant? (5) 2. Figure 3 shows the voltage across a capacitor versus time in a RC-circuit experiment. (5) The applied voltage to the capacitor is V-6. What is the estimated time constant for this capacitor? a) 1-50 b) 50-100s c) 100-150 d) 200-250 e)300-350s Figure 3: Voltage versus time for a capacitor. 3. Working Problem (show all your work!) Figure...
Thought Experiment: Explain what is physically happening to the charge in the RC circuit during charging and discharging cycles (i.e. Why does the capacitor charge/discharge quickly at first but slows down with more time? Where is the charge going?). In the DC Electrical Circuits lab, we used the analogy of water flowing through a pipe to visualize Ohm's law can you extend that analogy to the RC circuit? * Thought Experiment: Explain what is physically happening to the charge in...
1. Calculate amount of charge stored on the capacitor after it has been charging for 1.10s. 2. The fraction of charge remaining on the capacitor 1.00ms after it begins discharging is 0.300. Calculate the resistance of the patient. The defibrillator uses a capacitor to store the charge that will be delivered in the current. The capacitor forms part of an RC-circuit, as shown in the diagram below: The capacitance of the capacitor is 29.4 μF and the resistance of the...
These are my measurements. This is for physics its a RC LAB. The purpose is that for a discharging capacitor we measure voltage and from this we determine the capacitance. Also from thee measured capacitance we can find thee internal resistance of the voltmeter 1)measurements over resistor T(time every 10 seconds Voltage(V) 1 5 2 4 3 2 4 1 —>The wanted us to plot In(v) vs time, and find the equation of the line.The equation of line for this...
1) What is the purpose of finding t in a RC circuit? 2) For all practical purposes, a capacitor is considered fully discharged (or fully charged) after 5 time constants. What is the voltage across a discharging capacitor in a RC circuit that has Vo = 10V, and t = 5t seconds? Show your calculation below.