For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,
R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

Bangladesh Bank - Sub Assistant Engineer (Electrical) (17-01-2026) ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

Created: 4 days ago | Updated: 4 days ago

Updated: 4 days ago

For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,
R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

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ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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Find currents I and I₁ in the following circuit.

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৪৫ তম বিসিএস লিখিত ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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2
Determine the Thevenin's equivalent circuit at terminal X-Y of the following circuit.

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৪৫ তম বিসিএস লিখিত ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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3 State maximum power transfer theorem.

Created: 1 year ago | Updated: 6 months ago

Updated: 6 months ago

Maximum Power Transfer Theorem :

In electrical engineering, the maximum power transfer theorem states that, to obtain maximum external power from a power source with internal resistance, the resistance of the load must equal the resistance of the source as viewed from its output terminals.

৪৫ তম বিসিএস লিখিত ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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4
If the switch in the following circuit opens at t = 0, find v(t) for t≥ 0 and the initial energy stored in the capacitor.

Created: 1 year ago | Updated: 6 months ago

Updated: 6 months ago

For t<0, the switch is closed.

Capacitor acts as open to DC.

Voltage across the capacitor,

v(0^-)= {(12||4)×V}÷{(12||4)+6} = 8VFor t=0, the switch is opened,Voltage across the Capacitor cannot change instantaneously,So, v(0^-)= v(0) = 8VAt t>0, The capacitor is discharging.R_th= (12||4) = 3 ohmC= 1/6 FTime constant, Π = R_th×C = 0.5 So, v(t) = v(0)e^-t/Π = 8e^-t/0.5=8e^-2tV (Ans.)

৪৫ তম বিসিএস লিখিত ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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Show that a series RL circuit is a low pass filter if the output is taken across the resistor. Calculate the cut-off frequency (f_c) if L = 2 mH and R = 10 kΩ.

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৪৫ তম বিসিএস লিখিত ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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Compute the average and effective values of the square voltage wave shown in the following figure.

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৪৫ তম বিসিএস লিখিত ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

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For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,
R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,
R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

Related Question

1
Find currents I and I₁ in the following circuit.

2
Determine the Thevenin's equivalent circuit at terminal X-Y of the following circuit.

3 State maximum power transfer theorem.

Maximum Power Transfer Theorem :

4
If the switch in the following circuit opens at t = 0, find v(t) for t≥ 0 and the initial energy stored in the capacitor.

5
Show that a series RL circuit is a low pass filter if the output is taken across the resistor. Calculate the cut-off frequency (f_c) if L = 2 mH and R = 10 kΩ.

6
Compute the average and effective values of the square voltage wave shown in the following figure.

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Satt AI

Hi, আমি SATT AI!

For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

ইলেকট্রিক্যাল এন্ড ইলেকট্রনিক্স ইঞ্জিনিয়ারিং (EEE)

Related Question

1 Find currents I and I1 in the following circuit.

2 Determine the Thevenin's equivalent circuit at terminal X-Y of the following circuit.

3 State maximum power transfer theorem.

Maximum Power Transfer Theorem :

4 If the switch in the following circuit opens at t = 0, find v(t) for t≥ 0 and the initial energy stored in the capacitor.

5 Show that a series RL circuit is a low pass filter if the output is taken across the resistor. Calculate the cut-off frequency (fc) if L = 2 mH and R = 10 kΩ.

6 Compute the average and effective values of the square voltage wave shown in the following figure.

Related Question

Promotion

Satt AI

Hi, আমি SATT AI!

For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,
R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

For an RLC series circuit the value of resistor, Inductor and capacitor are gradually,
R = 1000 Ω, L = 100 mH, C = 10 µF. Determine (i) Resonance frequency (ii) Q-factor (iii) Bandwidth (BW) of the circuit.

1
Find currents I and I₁ in the following circuit.

2
Determine the Thevenin's equivalent circuit at terminal X-Y of the following circuit.

4
If the switch in the following circuit opens at t = 0, find v(t) for t≥ 0 and the initial energy stored in the capacitor.

5
Show that a series RL circuit is a low pass filter if the output is taken across the resistor. Calculate the cut-off frequency (f_c) if L = 2 mH and R = 10 kΩ.

6
Compute the average and effective values of the square voltage wave shown in the following figure.