For a resistance-inductance circuit. kirchoff's law leads to L dI(t)/dt +RI(t)=V(t). Find I(t)?

18-5 A self-inductance L, a resistance R, and a battery of emf epsilon b are all...

18-5 A self-inductance L, a resistance R, and a battery of emf epsilon b are all connected in series. Use energy considerations to show that the current i satisfies the differential equation L (di/dt) + Ri = epsilon b. Now assume that i tidak sama dengan 0 and the battery is switced out of the circuit. Solve the resulting equation and find the relaxation time of this system.

Given a governing differential equation for a circuit as shown below: di/dt+(R/L)*i=Vs Find the particular solution...

Given a governing differential equation for a circuit as shown below: di/dt+(R/L)*i=Vs Find the particular solution for i for this equation (i.e. i where t goes to infinity), given vS = u(t) V (u(t) is the unit step function, 0 before t=0, 1 for t=0 and beyond), for t>0, to 1% accuracy. The component values are R = 3.3 kΩ, L = 2.1 mF.

1. A R-L circuit consists of one resistance 2.0 Ohm and one unknown Inductance. A voltage...

1. A R-L circuit consists of one resistance 2.0 Ohm and one unknown Inductance. A voltage v=54 sin(399 t) is applied to this circuit and measured current is 2.77 A. Find out the unknown Inductance in mH unit. 2. In a R-L-C AC circuit, R= 7 Ohm, ZL= j 8 Ohm, ZC= -j 15 Ohm. Supply voltage is v= 15 sin( 7 t). Calculate the ANGLE of Z.

An ideal L-C circuit (zero resistance) includes an inductor with inductance L and a capacitor with...

An ideal L-C circuit (zero resistance) includes an inductor with inductance L and a capacitor with capacitance C, maximum charge on the capacitor Q, and a oscillation period T. If we change out the inductor for one with an inductance 4L, and we reduce the maximum charge on the capacitor to Q/2, what is the new period of the L-C circuit?

Consider a RLC series circuit that satises the equation Ldi/dt + Ri + 1/C (integral) idt...

Consider a RLC series circuit that satises the equation Ldi/dt + Ri + 1/C (integral) idt = v(t), with i(t) and v(t) sinusoidal signals, the excitation signal v(t) = 200 sqrt(2) cos(w(t - 4.1667)) with t in [ms], and the parameters R = 100 [ ], L = 1 [H], C = 5 [C] and f = 60 [Hz]. Use the properties of the phasor transformation to: (a) determine the equivalent impedance of the system (b) determine the mathematical expression...

Consider a series circuit with a resistor with resistance R, an inductor with inductance L and...

Consider a series circuit with a resistor with resistance R, an inductor with inductance L and an ac generator with angular frequency, ω and peak voltage V0. Using Kirchoff’s laws, write and solve the differential equation for the current, I.

In an LRC series circuit, the inductance is 244 mH, the resistance is 29 Ω, and...

In an LRC series circuit, the inductance is 244 mH, the resistance is 29 Ω, and the capacitance is 354 μF. If the AC voltage applied across the circuit is given by V(t) = (12 V)sin(11πt) calculate the voltage across each element at a time of t = 0.04 s. VR = V VC = V VL = V

In an L-R-C series circuit, the resistance is 600 ?, the inductance is 440 mH and...

In an L-R-C series circuit, the resistance is 600 ?, the inductance is 440 mH and the capacitance is 4.00 ?F. At resonance, the rms current through the circuit is 0.120 A. (A) Find the resonance frequency f0 of the circuit. [4] (B) Find the rms voltage of the source. [4] (C) Find the rms voltage across the capacitor at resonance. [6] (D) Find the rms voltage across the inductor at resonance.

Consider an RLC circuit with resistance 21Ω, inductance 0.1H, capacitance 2500μF, and an impressed voltage, provided...

Consider an RLC circuit with resistance 21Ω, inductance 0.1H, capacitance 2500μF, and an impressed voltage, provided by an alternating current generator, with V=75V, 120Hz. At t=0 V=0V, Q=4C, I=1A. a. Complete the ODE below in terms of the charge in the circuit Q(t): Q’’ + Q’ + Q L = 0.1 henrys R = 21 ohms C = 0.0025 farads Substitute values in equation:  , V = 75V V Q” + 210Q’ + 4000Q = 750V b. Solve the ODE and...

A coil of L Henry of inductance and R Ohms of resistance in series is put...

A coil of L Henry of inductance and R Ohms of resistance in series is put in series with a capacitor of C Farad of capacitance. Una corriente i(t) =G* IMsine() amps flows in the circuit. Show that the energy WL + WC = constant. Rate this constant.