Question

In: Electrical Engineering

In a circuit of frequency radius, a resistance of 200ohm serves as a load at the...

In a circuit of frequency radius, a resistance of 200ohm serves as a load at the end of a 50 ohm transmission line. We wish to connect a capacitor, C, in parallel with the entrance line so that a source with 50 ohm exit impedance doesn't see reflections

a) Determine the minimum length of the transmission line in terms of wave length.

b) Determine the reactance value of the capacitor

I got a) to be 0.2064lamda. Any help would be helpful!!!!!!!!!

Solutions

Expert Solution


Related Solutions

A constant voltageis applied across a circuit. If the resistance in the circuit isdoubled,...
A constant voltage is applied across a circuit. If the resistance in the circuit is doubled, what is the effect on the power dissipated by the circuit?The power dissipated is reduced by a factor of 4.The power dissipated is reduced by a factor of 2.The power dissipated is doubled.The power dissipated remains constant.The power dissipated is quadrupled.If the resistance in a circuit connected to a constant current is halved, how is the voltage in the circuit affected?The voltage is reduced...
Consider an RC circuit with resistance R and capacitance C. The circuit is stimulated with a...
Consider an RC circuit with resistance R and capacitance C. The circuit is stimulated with a pulse of amplitude A and width T. The purpose of this study is to understand what happens to the impulse response, capacitor voltage, and resistor voltage for various resistor values: 600 ?, 1000 ?, and 1200 ?. The name of the MATLAB script will be called project2a. Excite the circuit with a rectangular pulse voltage of amplitude=5 V and pulse width of 10 ms....
1 Larmor radius and gyration frequency (10 P) Calculate the Larmor radius and the gyration frequency...
1 Larmor radius and gyration frequency (10 P) Calculate the Larmor radius and the gyration frequency (4 P) for: 1. An electron in the Earth’s ionosphere at 300 km altitude, where the magnetic flux density is B ≈ 0.5 · 10−4 T, considering that the electron moves at the thermal velocity (p kT /m) with T = 1000 K. (1 P) 2. An oxygen ion O+ in the Earth’s ionosphere for the same conditions as above. Is there a difference...
A circuit maintains a constant resistance. If the current in the circuit is doubled, what is the effect on the power dissipated by the circuit?
A circuit maintains a constant resistance. If the current in the circuit is doubled, what is the effect on the power dissipated by the circuit? The power dissipated is quadrupled The power dissipated is doubled. The power dissipated remains constant.  The power dissipated is reduced by a factor of 4. The power dissipated is reduced by a factor of 2.
Q2.Find the equivalent circuit from no - load and short - circuit test of a 3...
Q2.Find the equivalent circuit from no - load and short - circuit test of a 3 - phase. 14.92 kW, 400 V, 6 - pole induction motor from the following test results (line values): No - load: 400 - V, 11 A, p.f. = 0.2 Short - circuit: 100 - V, 25 A, p.f. = 0.4 Rotor Cu loss at standstill is half the total Cu loss.
Identify three structural concepts to provide a stiff load path for lateral load resistance
Identify three structural concepts to provide a stiff load path for lateral load resistance
The resonant frequency of an RLC series circuit is less than the frequency of the fem....
The resonant frequency of an RLC series circuit is less than the frequency of the fem. Does the current overtake this backward to the fem? Explain
A. If an RLC circuit with a resistance of 450 Ω is in resonance, the phase...
A. If an RLC circuit with a resistance of 450 Ω is in resonance, the phase angle of the circuit is (1) positive, (2) zero, (3) negative. B. A circuit has an inductive reactance of 280 Ω at 60 Hz. What value of capacitance would set this circuit into resonance ? C. What is the inductance value ? D. If the inductance doubles from the value in part (C) what is the circuit's phase angle now ?
In an LC circuit, the angular frequency is ω = √1/LC. Explain why an LC circuit...
In an LC circuit, the angular frequency is ω = √1/LC. Explain why an LC circuit with a larger inductance or a larger capacitance will oscillate more slowly. Make your explanation based on physics, not mathematics.
A series RCL circuit has a resonant frequency of 1470 Hz. When operating at a frequency...
A series RCL circuit has a resonant frequency of 1470 Hz. When operating at a frequency other than 1470 Hz, the circuit has a capacitive reactance of 5.0 Ω and an inductive reactance of 26.0 Ω. (a) What is the value of L? (b) What is the value of C?
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT