We have a RLC series circuit. On this circuit V=100+j0 volts R=10ohm, L=85mH and C=1uF regarding...

We have a RLC series circuit. On this circuit V=100+j0 volts R=10ohm, L=85mH and C=1uF regarding to this values;

* What should F0 has to be for making this circuit work at resonance position?
* What is XL value with using F0 frequency?
* What is XC value with using F0 frequency?
* What is I value when the circuit is at resonance position?
* What are voltages on VR, VXL, and VXC components when the circuit is on resonance position? and phasor diagram?

And regarding all of this questions what is your comment about that circuit?

Could you please share your solutions not just answers only. Thanks in advance. Stay safe!

Solutions

Expert Solution

Manojponduru answered 1 year ago

Next > < Previous

Related Solutions

In a series oscillating RLC circuit, R = 16.4 Ω, C = 30.9 μF, L =...

In a series oscillating RLC circuit, R = 16.4 Ω, C = 30.9 μF, L = 8.80 mH, and E = Emsinωdt with Em = 44.8 V and ωd = 2900 rad/s. For time t = 0.434 ms find (a) the rate Pg at which energy is being supplied by the generator, (b) the rate PC at which the energy in the capacitor is changing, (c) the rate PL at which the energy in the inductor is changing, and (d)...

In a series oscillating RLC circuit, R =16.0 W, C =5.0 mF, L =20.0 mH, and...

In a series oscillating RLC circuit, R =16.0 W, C =5.0 mF, L =20.0 mH, and e=emsin (wt) with em =45.0 V and frequency of oscillation is 50 Hz. For time t= 0.4 s find (a) the rate PCat which the energy in the capacitor is changing, and (b) the rate PRat which energy is being dissipated in the resistor.

An RLC circuit with R = 23.8 Ω , L = 327 mH , and C...

An RLC circuit with R = 23.8 Ω , L = 327 mH , and C = 45.7 μF is connected to an ac generator with an rms voltage of 25 V A: Determine the average power delivered to this circuit when the frequency of the generator is equal to the resonance frequency. B: Determine the average power delivered to this circuit when the frequency of the generator is twice the resonance frequency C: Determine the average power delivered to...

An RLC circuit has L = 250 mH, C = 0.200 ?F, and R = 2.00...

An RLC circuit has L = 250 mH, C = 0.200 ?F, and R = 2.00 k?. What is the angular frequency of its damped oscillations?

An RLC circuit, with R = 12 Ω, L = 1 H, C = 0.01 f,...

An RLC circuit, with R = 12 Ω, L = 1 H, C = 0.01 f, connects to a 20 V source. If the switch is initially off and turns on after 10 seconds, staying on for 20 seconds , to then be permanently disconnected, also at the beginning consider that the capacitor is discharged and that the current is zero. Determine: a) The accumulated charge on the capacitor for t = 8sec b) The accumulated charge in the capacitor...

In a series R-L-C circuit, R= 360 ohm , L= 0.410 H and C= 1.1*10^-2 micro...

In a series R-L-C circuit, R= 360 ohm , L= 0.410 H and C= 1.1*10^-2 micro F. 1.What is the resonance angular frequency of the circuit? 2. The capacitor can withstand a peak voltage of 550 V. If the voltage source operates at the resonance frequency, what maximum voltage amplitude can it have if the maximum capacitor voltage is not exceeded?

In an RL series circuit with L = 1/100 H, R = 20 Ω, and E...

In an RL series circuit with L = 1/100 H, R = 20 Ω, and E = 60 V. Determine the limit of the maximum current reached (At the function you found to determine the current as a function of time apply the limit when t goes to infinity) and determine the time in which it reaches half of that value. Take i (0) = 0 A.

The differential equation for the current in an RLC circuit is given by L d2i/dt2 +R...

The differential equation for the current in an RLC circuit is given by L d2i/dt2 +R di/dt+(1/c)i =wE0 cos(wt) with initial values i(0)=0 and i'(0)=0. Solve the above IVP.

In a series oscillating RLC circuit, R=16.0Ω, C=1.2μF,L=.20mH, and ε=εmsinωdt with εm=45.0Vandωd=3000rad/s. For time t=0.442ms find...

In a series oscillating RLC circuit, R=16.0Ω, C=1.2μF,L=.20mH, and ε=εmsinωdt with εm=45.0Vandωd=3000rad/s. For time t=0.442ms find (a) the ratePg at which energy is being suppliedby the generator, (b) the rate Pc atwhich the energy in the capacitor is changing, and (d) the rate PRat which energy is being dissipated in the resistor.

An RLC circuit is made up of a resistor R = 12Ω , a capacitor C...

An RLC circuit is made up of a resistor R = 12Ω , a capacitor C = 0.1 F and an inductor L = 2 H. A voltage source is connected that supplies 110 V. If initially the capacitor is discharged and no current flows through the circuit, find an expression for the charge at all times t. differential equations

Subjects