To install new electrical wire, what we need to account? A. Wire resistance and inductive B....

1)Electrical resistance for a wire of any size can be calculated using the relation: R =...

1)Electrical resistance for a wire of any size can be calculated using the relation: R = pL/A where R = resistance ?, p = resistivity (?-cm), L = wire length (cm), p = 112 u? cm. For a 10-m length of 16-gauge (diameter = 1.291 mm) nichrome wire, find the resistance. If a current of 4 A flows in the wire, find the voltage drop and power dissipation. 2)A standard power value for a household incandescent lightbulb is 60 W....

1.A 1KM long wire has a resistance of 10 ohm. what will be its resistance if...

1.A 1KM long wire has a resistance of 10 ohm. what will be its resistance if the lenght is increased twice? 2. two 100 uF 63v capacitors connected in parallel.what is an assembly capacitance? 3.a 3 phase star has a connected electrical energy source has 115v measured across the A and N wires .then B to N voltage will be equal to?

Industrial loads usually consist of resistance and inductance which we would refer to as an inductive...

Industrial loads usually consist of resistance and inductance which we would refer to as an inductive load (voltage leads current or current lags voltage). This means that we have a lagging power factor. Is there a means of lowering the lagging power factor angle (i.e., bring the power factor closer to unity) by adding a component or components to the circuit? What would you add? How would you connect that additional component?

An electrical load of 20kVA with a power factor of 0.82 inductive operates with a voltage...

An electrical load of 20kVA with a power factor of 0.82 inductive operates with a voltage of 440 V and a frequency of 60 Hz. The impedance between the power supply and the load is (10 + j50) mΩ. The voltage on that load is 440V, under these conditions determine (a) the voltage at the circuit's power supply; (b) what are the losses in the feeder/power supply; (c) what is the capacitance value that, when placed in parallel with the...

A series RLC circuit has resistance R = 18.0 Ω, inductive reactance XL = 34.0 Ω,...

A series RLC circuit has resistance R = 18.0 Ω, inductive reactance XL = 34.0 Ω, and capacitive reactance XC = 22.0 Ω. If the maximum voltage across the resistor is ΔVR = 115 V, find the maximum voltage across the inductor and the capacitor. (Due to the nature of this problem, do not use rounded intermediate values in your calculations—including answers submitted in WebAssign.) HINT (a) the maximum voltage across the inductor (in V) V (b) the maximum voltage...

Part A: A large air conditioner has a resistance of 7.0 ?and an inductive reactance of...

Part A: A large air conditioner has a resistance of 7.0 ?and an inductive reactance of 13 ? . The air conditioner is powered by a 65.0 Hz generator with an rms voltage of 220 V . Find the impedance of the air conditioner and the rms current. Part B: An electric motor with a resistance of 15? and an inductance of 55 mH is connected to a 61.0 Hz ac generator. What is the power factor for this circuit?...

An aluminum transmission line with a diameter of 20 mm has an electrical resistance of R'elec=...

An aluminum transmission line with a diameter of 20 mm has an electrical resistance of R'elec= 2.636 × 10-4 Ω/m and carries a current of 700 A. The line is subjected to frequent and severe cross winds, increasing the probability of contact between adjacent lines, thereby causing sparks and creating a potential fire hazard for nearby vegetation. The remedy is to insulate the line, but with the adverse effect of increasing the conductor operating temperature. (a) Calculate the conductor temperature...

A 1 Henry inductor is designed to limit current flow in a fluorescent tube, where AC...

A 1 Henry inductor is designed to limit current flow in a fluorescent tube, where AC power is supplied at 330V (peak) and 50 Hz . The total resistance of the wire in the coil is 200Ω. If we connect the inductor directly to English mains: a. What is the inductive reactance of the coil? b. What is the impedance and peak current flowing through the coil? c. What is the phase difference between the mains current and the mains...

A squirrel is sitting on an electrical wire. What kind of energy does he have? a....

A squirrel is sitting on an electrical wire. What kind of energy does he have? a. Gravitational potential b. Electrical potential c. Kinetic The squirrel leaps for a neighboring wire; as he moves through the air (quite some distance above the ground), what kind of energy does he have? a. Gravitational potential b. Kinetic c. Gravitational potential and kinetic

In lab, we connect the power and ground through two approximately 24-inch 22-gauge copper wires. The...

In lab, we connect the power and ground through two approximately 24-inch 22-gauge copper wires. The total resistance of this 48 inches of wire is about 63mΩ. The total inductance is about 2:0 H. Perform the following two calculations and think about the implications of the result. Consider a circuit that is initially drawing 0mA and then linearly ramps up to a final current of 10mA in 2.5 nanoseconds. (This might be a typical value for a 40MHz clock signal...