The current i(t) = 4 sen(106 t + 25°)A is applied to a capacitance C =...

An AC power supply is connected to a capacitor of capacitance 3.5 μF. At time t...

An AC power supply is connected to a capacitor of capacitance 3.5 μF. At time t = 0 the power supply is switched on and starts providing a time-dependent voltage v(t) = V0 cos(ωt) across the capacitor, where V0 = 4.1 V and ω = 372 rad/s. The capacitor is initially uncharged. A)Find the current, in milliamperes with its sign, through the capacitor at time t = 2.5 s. B)Calculate the voltage across the capacitor, in volts with its sign,...

7) A circuit consists of a capacitor (capacitance of 1μF) and a resistor (resistance 1000 Ω)...

7) A circuit consists of a capacitor (capacitance of 1μF) and a resistor (resistance 1000 Ω) in series, with a battery supplying a potential difference of 12.0 V. At time t=0 a switch is closed to allow current to flow in the circuit for the first time. Remember that the potential difference supplied by the battery ε is not the same as the potential across the capacitor ΔV unless a lot of time has elapsed. Also an RC circuit is...

% The current through a capacitor, i, is equal to the capacitor value % multiplied by...

% The current through a capacitor, i, is equal to the capacitor value % multiplied by the rate of change of the voltage across it vs. t as it is % charging, meaning i = C*dV/dt. If C = 1000e-6, and the voltage across the % capacitor is measured every 0.5ms, shown in the table below, % Find the current through the capacitor. Plot current (i) and voltage(V) % on two different figures. How are the plots related? %_______________________________________ %...

a) A capacitor of 10 µF is connected to the power supply of 8 Volts through...

a) A capacitor of 10 µF is connected to the power supply of 8 Volts through a resistance of 2 MΩ. If Vc denotes the potential difference across the capacitor, draw the graph between Vc vs t. Also indicate the value of Vc at t = 0 and t = 50 seconds and mark time constant on the time axis. b) If a fully charged capacitor of C = 10μF discharges through the resistance of 0.2MΩ. Find the time when...

A circuit is constructed with an AC generator, a resistor, capacitor and inductor as shown. The...

A circuit is constructed with an AC generator, a resistor, capacitor and inductor as shown. The generator voltage varies in time as ε =Va - Vb = εmsinωt, where εm = 120 V and ω = 651 radians/second. The values for the remaining circuit components are: R = 97 Ω, L = 114.8 mH, and C = 11.9μF. 3) What is φ, the phase angle between the generator voltage and the current in this circuit. The phase φ is defined...

The current in a series circuit of R=5Ω and L=50µH, lags the applied voltage by 45o...

The current in a series circuit of R=5Ω and L=50µH, lags the applied voltage by 45o . (a) Determine the source frequency (b) The value of the total impedance Z (c) What is the value of the capacitor to be added in series with these two components, such that the phase shift between the total voltage and current becomes zero? (d) Calculate the total impedance after the addition of the capacitor in part (c)

1. Set L = 5 mH, C = 8 µF, R = 0 Ω, and Q...

1. Set L = 5 mH, C = 8 µF, R = 0 Ω, and Q = 2E-6 C. Measure the maximum current through the circuit, and the period of the oscillation. Now increase the inductance of the inductor by 50% to 7.5 mH calculate max current = ________ A   period T = ________ s. 2. Reset to L = 5 mH, C = 8 µF, keep R = 0 Ω, and Q = 2E-6 C. Keeping the charge on the...

A) When an alternating voltage of 200 V is applied across a device X, a current...

A) When an alternating voltage of 200 V is applied across a device X, a current of 0.4A flows through the circuit and is in phase with the applied voltage. When the same voltage is applied across another device Y, the same current again flows through the circuit, but it lags behind the applied voltage by π/2radians. Name the devices X and Y. Justify your answer.                                                                   b) A coil of inductance 0.50H and resistance 100 Ω is...

In an oscillating LC circuit, L = 29.0 mH and C = 7.30 µF. At time...

In an oscillating LC circuit, L = 29.0 mH and C = 7.30 µF. At time t = 0 the current is 9.20 mA, the charge on the capacitor is 3.00 µC, and the capacitor is charging. (a) What is the total energy in the circuit?   J (b) What is the maximum charge on the capacitor?   C (c) What is the maximum current?   A (d) If the charge on the capacitor is given by q = Q cos(?t + ?),...

In an oscillating LC circuit, L = 20.0 mH and C = 8.00 µF. At time...

In an oscillating LC circuit, L = 20.0 mH and C = 8.00 µF. At time t = 0 the current is 9.10 mA, the charge on the capacitor is 3.30 µC, and the capacitor is charging. (a) What is the total energy in the circuit? J (b) What is the maximum charge on the capacitor? C (c) What is the maximum current? A (d) If the charge on the capacitor is given by q = Q cos(ωt + ϕ),...