Imagine a perfect voltage source V that has an internal resistance of r, if we connect...

why a higher transmission voltage is advantageous. Source voltage = 5V Line resistance = 1 Ohm...

why a higher transmission voltage is advantageous. Source voltage = 5V Line resistance = 1 Ohm Load resistance = 4 Ohm Calculate the following for each Current in the circuit Power dissipated by the line resistance Power dissipated in the load Total power delivered Ratio of power lost due to line resistance to power dissipated in the load

A full-wave rectifier has a 120 V rms, 60 Hz ac source. The load is a...

A full-wave rectifier has a 120 V rms, 60 Hz ac source. The load is a series inductance, resistance and dc voltage source, with L = 100 mH, R = 10 Ω, and Vdc = 50 V. a). Determine an expression for load current. b). Determine the power absorbed by the dc voltage source. c). Determine the power absorbed by the resistance. d). Determine the power factor of the source.

A source circuit is used to drive a load with resistance RL = 30?. The Thevenin...

A source circuit is used to drive a load with resistance RL = 30?. The Thevenin equivalent of this source circuit is characterized by ?T = 2.5V and RT = 60?. (a) Determine the maximum voltage ?max and maximum current imax available from the source circuit. (b) Compute the actual load voltage ?L and load current iL. (c) Compare the actual power delivered to the load with the maximum power available from the source circuit.

A battery has an emf of 15.0 V. The terminal voltage of the battery is 12.6...

A battery has an emf of 15.0 V. The terminal voltage of the battery is 12.6 V when it is delivering 14.0 W of power to an external load resistor R. (a) What is the value of R? Ω (b) What is the internal resistance of the battery? Ω

An AC voltage source is connected to a 22.0 Ω resistor. The output voltage of the...

An AC voltage source is connected to a 22.0 Ω resistor. The output voltage of the source is given by the function Δv = (100 V)sin[(50π rad/s)t]. (a) From the equation for the output voltage, what is the maximum voltage across the resistor (in V)? V (b) From the equation for the output voltage, what is the frequency of oscillation of the current through the resistor (in Hz)? Hz (c) What is the rms voltage across the resistor (in V)?...

A voltage V across a resistance R generates a current I=V/R. If a constant voltage of...

A voltage V across a resistance R generates a current I=V/R. If a constant voltage of 11 volts is put across a resistance that is increasing at a rate of 0.6 ohms per second when the resistance is 8 ohms, at what rate is the current changing?

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

A 100 V source with an internal impedance ZG feeds a lossless coaxial cable at a frequency equal to 100 MHz. The load impedance of 100 ? is compensated with a reactance XL as shown in the circuit of Figure 1, calculate: a) The reactance XL required to obtain an input impedance purely real as seen from the source. b) The input impedance of the cable. c) The average power delivered to the compensated load. d) The average power delivered...

An ac source of maximum voltage V0 = 40 V is connected to a resistor R...

An ac source of maximum voltage V0 = 40 V is connected to a resistor R = 60 Ω, an inductor L = 0.5 H, and a capacitor C = 30 μF. Find the average power at 60 Hz.

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.

3) A damaged car battery with an emf of 11.4 V and an internal resistance of...

3) A damaged car battery with an emf of 11.4 V and an internal resistance of 0.01 ohms is connected to a load of 2.0 ohms. To help the battery, a second battery with an emf of 12.6 V and an internal resistance of 0.01 ohms is connected by jumper cables to the terminals of the first battery. a) Draw a diagram for the circuit. b) Find the current in each part of the circuit. c) Find the power delivered...