A 200-volt electromotive force is applied to an RC-series circuit in which the resistance is 1000 ohms and the capacitance is 5 x 10-6 farad. Find the charge q (t) on the capacitor if i (0) = 0.4. Determine the charge and the current at t = 0.005s. Determine the charge as t→→∞0.
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- An uncharged capacitor and a resistor are connected in series to a source of emf. If = 7.00 V, C = 22.0 μF, and R = 100 , find the following: (a) the time constant of the circuit (b) the maximum charge on the capacitor μC (c) the charge on the capacitor after one time constant μεA capacitor of capacitance C = 1 µF is connected in series to a resistor of resistance R = 10 MN and a battery of emf = 3V. The capacitor is initially discharged. How many %3D seconds will it take for the current in the circuit to decrease to 42% of its initial value? Write the answer, rounded off to 2 decimal places, without units.A battery with an emf of 24 V and unknown internal resistance r is connected to a 6.0 W load resistor RL such that a current of 3.0 A flows through the load resistor. The output voltage of the battery (terminal voltage) is:
- The figure below shows a capacitor, with capacitance C = 4.72 µF, and a resistor, with resistance R = 5.48 MO, connected in series battery, with E = 26.0 V. The circuit has a switch, which is initially open. R- (a) What is the circuit's time constant (in seconds)? (b) What is the maximum charge (in µC) on the capacitor after the switch is closed? (c) What is the current (in uA) through the resistor 10.0 s after the switch is closed? HAA simple RC circuit consisting of a 10.0-µF capacitor in series with a resistor. Initially, the switch is open. The capacitor has been charged so that the potential difference between its plates is 100.0 V. At t = 0 s, the switch is closed. The capacitor discharges exponentially so that 2.0 s after the switch is closed, the potential difference between the capacitor plates is 37 V. In other words, in 2.0 s, the potential difference between the capacitor plates is reduced to 37 % of its original value. Determine the numerical value of the resistance R (in Q).An uncharged capacitor and a resistor are connected in series to a source of emf. If Ɛ = 7.00 V, C = 25.0 µF, and R = 100 N, find the following: (a) the time constant of the circuit (b) the maximum charge on the capacitor µC (c) the charge on the capacitor after one time constant
- An uncharged capacitor and a resistor are connected in series to a source of emf. If E= 12.00 V, C = 15.0 μF, and R = 100 , find the following: (a) the time constant of the circuit (b) the maximum charge on the capacitor μC (c) the charge on the capacitor after one time constant μCI need a labled schematic on paper of the circuit showing + and - terminals of the battery, the direction of any current flowing through the circuit, and any voltage drop across any resistors. I also need the form of the equations dealing with I, R (or 1/R), and V equations filled in with the appropriate numbers and answer with units for this problem. Problem: Two resistances are connected in series to a voltage source. The voltage source (∆Vtot) is a 48-V source and the resister values are 6.4 Ω (R1) and 3.9 Ω (R2). Determine the equivalent resistance of the circuit. Determine the current in the circuit. Determine the voltage drop across each individual resistor.An uncharged capacitor with C = 33 μF and a resistor with R = 65 Ω are connected in series with a battery of ε = 1.5 V. Express the time constant τ in terms of R and C and use it to calculate the numerical value of τ in microseconds. Express the maximum charge Q on the capacitor in terms of C and ε and use it to calculate the numerical value of Q in microcoulombs.
- An initially uncharged 4.47 x 10-6 F capacitor and a 6350 resistor are connected in series to a 1.50 V battery that has negligible internal resistance. What is the initial current Io in the circuit? Calculate the circuit's time constant 7. How much time t must elapse from the closing of the circuit for the current to decrease to 3.39% of its initial value? Io = T = t = 2.36 x107 2.839 X10-2 3.45 Incorrect A SA 6.00 μF capacitor that is initially uncharged is connected in series with a 4600 resistor and a 507 V emf source with negligible internal resistance. Part D Just after the circuit is completed, what is the current through the resistor? Express your answer in amperes. || ΑΣΦ IR = Submit Part E Vc, VR = Submit A long time after the circuit is completed (after many time constants), what are the voltage drop across the capacitor and across the resistor? Express your answers in volts separated by a comma. Part F Request Answer Q = Submit IVE ΑΣΦ Request Answer ? Request Answer A A long time after the circuit is completed (after many time constants), what is the charge on the capacitor? Express your answer in coulombs. Π ΑΣΦ ? ? VAn initially uncharged capacitor of 697 x 10-6 F is connected to a resistor. When the circuit is connected to a source potential, it takes 7.43 s for the capacitor to become 81.8 % fully charged. What is the resistance of the resistor?