Consider a series RC circuit as in the figure below for which R = 6.60 MΩ, C = 2.20 ?F, and e m f = 34.0 V. (a) Find the time constant of the circuit. s (b) Find the maximum charge on the capacitor after the switch is thrown closed. ?C (c) Find the current in the resistor 10.0 s after the switch is closed. ?A
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given,
R=6.60 Momega
C=2.20 microfarred
emf=34 volt
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- mam/sir how do u draw an electrical circuit, with a voltometer and a anmeter.A 200 ohms resistor and a 5000 micro farad capacitor is connected in series with a 10V battery. Find time consta d of the capacitor.Also determine initial current through the circuit.An RLC circuit is composed of a 250 uF capacitor and a 500 N resistor that was connected to a 120v power-source. Af ter a long time the switch is changed, disconnecting the battery from the RC circuit. A.) Derive the equation for the current through the RC cirauit after the switch was changed B.) what is the current in the circuit 4 seconds after the switch was changed ?
- 6. The following subparts are about an RC dynamic circuit a. Please draw a circuit diagram for a 15 V battery that is in series with a 5-ohm resistor, has an open switch, and a .75 uF capacotir. Then find the circuit's time constant in us. b. Find the initial curent when the swith is closed at t=0s and use the initial current plue the time constant to create a mathematical expression for the current as a function of time, I(t). Please include a drawing of I(t) from t=0 to t=5 RC c. Use the expression you created in (b) to find the current at t=.010ms d. Find the charge Q on the capacitor plates when they are fully charged. Write another mathematical expression for the capactitor charge as a function of time using the charge Q plus the time constant. Include a drawing of Q(t) from t=0 to t=5RC. e. Use the expression you created in (d) to find voltage across the capacitor plates at t=.010ms. JUST THE LAST TWO (D AND E)6. The following subparts are about an RC dynamic circuit a. Please draw a circuit diagram for a 15 V battery that is in series with a 5-ohm resistor, has an open switch, and a .75 uF capacotir. Then find the circuit's time constant in us. b. Find the initial curent when the swith is closed at t=0s and use the initial current plue the time constant to create a mathematical expression for the current as a function of time, I(t). Please include a drawing of I(t) from t=0 to t=5 RC c. Use the expression you created in (b) to find the current at t=.010ms d. Find the charge Q on the capacitor plates when they are fully charged. Write another mathematical expression for the capactitor charge as a function of time using the charge Q plus the time constant. Include a drawing of Q(t) from t=0 to t=5RC. e. Use the expression you created in (d) to find voltage across the capacitor plates at t=.010ms.connected con sist of five resis tors 7.a A circit as below. Determine the effective Tesistance in the circuit. RI RS- R2 R+ Ginen R, = sor, Rz=25Jr, R3= 30r, R¢=60r, Rs= 70r iD Wlhat is Hhe current is Hhe circuit iç the potential the resistors is 24 V? CICcross What is the potential that ccin be tapped across Rs? b.A circuit consist sisc capacitors connicted as below, detemine the effective capacitalnce. (3 G= SmF, G= Smf, G= 6mF, C4 = 6mF, Gaigg fo Cs= 8mF, C6 = 8 mF. What is the energy stored in the capacitors in ;circuit if the potential across %3D the the capacitors is 24V? C- lwo charges +3C and t 5C are placed 20Cm from in Yacuum- Wlhat magnitude of force will. their Centres they ebcert on each other, If Hhe sccond charge hes its polacity changed to negative (-sc). Inlliat would be the nature of the force ? Will there be a change in magnitude ? LPermitivity of free space a 8.8sx 10 -12
- A. Determine the equivalent resistance fir the circuit.keep vaules in ohms B. Determine hiw much current the battery produces. keep vaules in amps C. Determine the voltage across R12 and R3; call these values V12 and V3, keep the vaules in volts. then usr ohms law: V=i r, to fkmd the current across R12 and R3; call tjese 12 and 13, keep these vaules in amps. D. use ohms law to caculare the voltages across R1 and R2; call these vaules V1 and V2, keep results in volts. Requivatont,scris= Sihi=R1 tket . kequivaknt, papli=Zi Ri =RI K You circuit are given the following below. combination Z Rz R3 where V is a 12 V battery; R1 is 330ohms R2 is 180 ohms R3 is 270 ohms please write all work legaie thanks :)sia papa and surpres Combip a ant The 45-5 Lattery delivers 71w of power to the circuit. What is the resistance 2 of each resistor ? Ri J+ 45V ry. ww sy.A multi loop circuit has four resistors, all of 2.5 MΩ, and two 12 V batteries asshown. What are the currents thru the resistors in this circuit? Explicitly statetheir directions.
- In the RC circuit shown in the figure below, an ideal battery with fem E and internal resistance r is connected to capacitor C. Switch S is initially open and the capacitor is discharged. At t=0, the switch is closed. The. Determine the charge q on the capacitor at time t. B. Find the current at section b and at time t. What is current as t goes to infinity?/ The RC Circuit in the followsthg Figure has R=3 KSL and C= 5MF. The Capacitor has veldage 6 at t:o to dischorge to 25% of Its Initiel Valtaze? Find the time Cons tant of the Circunt? RShown in the figure below is an RC circuit. At t=0, the capacitor already contains a charge and as a result has a voltage of 7.30 Volts. The resistor has R = 5725 N, and the capacitor has C = 3.81e-06 Farads. At t=0, the switch is closed. ww switch Enter a number. Determine the time constant of the circuit, T= x seconds Fill in the table of formulas below. Use numerical values for the "max" column and a formula for the "form" column: max form Qcap(t) |× c -() e X V e ()- Vcap(t) Vres(t) e X A е -() Ires(t) • Determine the current at t=3.23e-02 seconds. X Amps NOTE: The entries for "max" are numerical. The entries for "form" leave out the leading coefficient. Here are examples: If the answer was: max: form: Q(t) = 12 sin(@ot) 12 sin(@t) V(t) 45 log(t/t) 45 log(t/t)