Find the complex power for the following: Vrms= 160 ∠ 30∘   V, Z= 40+ j60   ΩVrms⁢= ...

Two AC loads connected in parallel draw power from a 60 Hz, 120-Vrms source. Load 1...

Two AC loads connected in parallel draw power from a 60 Hz, 120-Vrms source. Load 1 draws 350 W at a lagging power factor of 0.7. Load 2 draws 500 VA at a leading power factor of 0.5. a. (5) Calculate the effective (rms magnitude) current drawn by load 1. b. (10) Calculate the impedance of Load 1. c. (5) Calculate the total complex power drawn by both loads combined. d. (5) Determine the PF of the combined load. Specify...

A 1.3-kΩ resistor and 26.3-mH inductor are connected in series to a Vrms = 120 V...

A 1.3-kΩ resistor and 26.3-mH inductor are connected in series to a Vrms = 120 V AC power source oscillating at a frequency of f = 60 Hz. The voltage as a function of time is given by V = V0cos(ωt), where V0 is the amplitude, ω is the angular frequency. Part (a) What is the amplitude of the source voltage, in volts? Part (b) Enter an expression for the impedance of the circuit in terms of R, L, f,...

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.

An AC source has max. voltage V0=40 V, and is connected to a resistor R=60 Ω,...

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

Find all the complex number z such that z^2=i

Find all the complex number z such that z^2=i

Let z= 2(cos(160)+ i sin(160)) and w=1(cos(40)+ i sin(40)). write zw in polar form where -180<degree<or...

Let z= 2(cos(160)+ i sin(160)) and w=1(cos(40)+ i sin(40)). write zw in polar form where -180<degree<or equal to 180 zw= ______(cos(_____)+ i sin(______))

A balanced three-phase Y-? system has Vab = 380 V rms and Z?=? If the line...

A balanced three-phase Y-? system has Vab = 380 V rms and Z?=? If the line impedance per phase is (0.1 + j0.4)? and total complex power delivered to the load (8+7j)KVA a) find line current b) find the voltage load c) find the current load d) find Z? f) simulation for this circuit on the MULTISIM

(1) Find all functions f(z) that are analytic in the entire complex plane and satisfy 2|sin(z)|...

(1) Find all functions f(z) that are analytic in the entire complex plane and satisfy 2|sin(z)| ≥ |f(z)|. (2) Find all functions f(z) that are analytic in the entire complex plane and satisfy 2|f(z)| ≥ |sin(z)|.

The symmetrical components of voltage in an unbalanced system are given as Vbo = 30 angle-30...

The symmetrical components of voltage in an unbalanced system are given as Vbo = 30 angle-30 V, Vb1 = 450angle-120 V, and Vb2 = 225<160 V. The component currents are Ibo = 10190 A, Ib1 = 6260 A, and Ib2 = 5170 A. Determine the complex power drawn by the load using the method of: i) symmetrical components ii) unbalanced phase components.

Two dc generators (A) and (B) with the following characteristics: Generator (A): rated voltage = 150...

Two dc generators (A) and (B) with the following characteristics: Generator (A): rated voltage = 150 V, rated current = 30 Amp, and armature resistance = 0.4 Ω. Generator (B): no-load voltage = 160 V, rated current = 20 Amp, and armature resistance = 0.6 Ω. are connected in parallel. Find: a) Circulating no-load current and terminal voltage. b) The load current when generator B floating. c) The maximum possible load power