A 100 V source with an internal impedance ZG feeds a lossless coaxial cable at a...

A radio transmitter is connected to an antenna having an impedance 80 + j40 ohm with...

A radio transmitter is connected to an antenna having an impedance 80 + j40 ohm with a 50 ohmcoaxial cable having a length of 2.0 m. The impedance of the transmitter is 50 ohm . The phase velocity of the signal propagation in the coaxial cable is 2.0*108 m/s, and the frequency of the sinusoidal signal is 800 MHz. Find the following quantities: a) The propagation constant of the signal in the cable. b) The reflection coefficient at the antenna....

A lossless transmission line has a generator voltage peak amplitude of 100 V. The internal resistance...

A lossless transmission line has a generator voltage peak amplitude of 100 V. The internal resistance of the generator is 10 Ohms. This transmission line is ended by a load of 20 Ohms.The characteristic impedance of the transmission line is 50 Ohms. Let the length of this tranmsion line be one third of the wavelength. Calculate the input impedance.

A 50V source is connected to a 50-V receiver using 30 ft of RG58U coaxial cable....

A 50V source is connected to a 50-V receiver using 30 ft of RG58U coaxial cable. If the source output is 100 MHz and –30 dBm, determine the voltage at the receiver in mV and dBmV. [6:05mV, 75:6 dBmV]

A generator with rms voltage of rms = 120 V drives an RLC circuit at frequency...

A generator with rms voltage of rms = 120 V drives an RLC circuit at frequency f = 60 Hz. The load resistance R and reactance values of the inductor L and the capacitor C of the circuit are given by R = 50 , XL = 50 , XC = 150 , respectively What is the impedance of the circuit? What is the peak current amplitude in the circuit? What is the phase angle  of the circuit? The...

An RLC series circuit containing a 6.00-mH inductor, a 100-? resistor, a 4.00-?F capacitor, and an...

An RLC series circuit containing a 6.00-mH inductor, a 100-? resistor, a 4.00-?F capacitor, and an AC source for which Emax = 50.0 V is operated at an angular frequency of 3000 s?1 . Part A Determine the phase constant ? where ?90? ??? 90?. ? = ?   Part B Determine the power factor. cos? = Part C Determine the impedance. Z = Part D Determine the rms emf for the source. Erms = Part E Determine the rms current....

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is...

A 100 MVA, 13.2 kV three phase generator (G) having a synchronous reactance of 10% is connected to a three phase Y-Y transformer T1 which feeds a 132 kV 10 miles transmission line having an impedance per phase of 2 + j5 ?/mile. At the receiving end of the transmission line is a Y-Y step down transformer T2. Three loads are connected to the secondary side of the transformer T2. Loads are as follows: Load#1 40 MVA at 0.8 pf...

Please provide a brief overview on: chapter 21 1. Can I obtain the net electric field...

Please provide a brief overview on: chapter 21 1. Can I obtain the net electric field due to two or more point charges? 2. Can I obtain the net Coulomb force on a point charge due to two or more point charges? 3. Can I draw physical quantities (for example, velocity, forces or electric fields) involved in a given problem in a diagram? 4. Do I have a good "qualitative" understanding of the motion of a charged particle in a...