An energy meter connected to an immersion heater (resistive) operating on an AC 230 V, 50 Hz, AC single phase source reads 2.3 units(kWh) in 1 hour. The heater is removed from the supply and now connected to a 400 V peak square wave source of 150 Hz. The power in kW dissipated by the heater will be

An energy meter connected to an immersion heater (resistive) operating on an AC 230 V, 50 Hz, AC single phase source reads 2.3 units(kWh) in 1 hour. The heater is removed from the supply and now connected to a 400 V peak square wave source of 150 Hz. The power in kW dissipated by the heater will be

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter3: Power Transformers

Section: Chapter Questions

Problem 3.7MCQ: Consider Figure 3.5. Match the following, those on the left to those on the right. (i) Im (a)...

See similar textbooks

Related questions

Q: Moving to another question will save this response. Question & A hair dryer is plugged into a 267 V…

A: In this question We need to determine the current through hair dryer. We know I= V/R

Q: Find the Fourier Transform for each of the following signals • f₁(t) = 3cos(2t) f2(t) = 5[u(t)-…

A: NOTE : As per our company guidelines we are supposed to answer first three sub-parts only. Kindly…

Q: Required: 1. Draw a k-map table based on the logic/truth table above. 2. Group the implicants (those…

A: The given truth table has 4 possible combinations and we can find the Boolean expression using…

Q: ғ - 2+ Е И(1) А гн +ju(t)

A: For the given circuit calculation of i0(t) using Laplace transform. given initial conditions,…

Q: Circuit connected in parallel with given values of Vsupply=120V; R1 = 2 ΚΩ, R2 = 4ΚΩ, R3 =6ΚΩ; R4 =…

Q: 811 Q3/ Classify the signals that follow into even signals, odd signals, and signals that are…

Q: Determine the continuous-time convolution of x(t) and h(t) x(1) 111 1 0 2 h(t) 2 0 1 2

A: In this question We need to determine the continue time convolution of the given signals. We know…

Q: If the load reduces to 400 MW, how will it be shared among the generators and what will the system…

Q: Find the per-phase impedance of Load 2 if the line

A: Given: A balanced three-phase source supplying 60 KVA at 0.6 lagging to Y-connected parallel loads…

Q: For the following circuits find VGSQ, IDQ VD, Vs a. b. c. VDS

A: The required parameters can be calculated by using the DC analysis of the amplifier and the Q point…

Q: Find the poles and zeros of the transfer function H(z) = 1 + 2Z−¹+2Z-² +Z-3

A: We need to find out the poles and zero for given transfer function .

Q: • Current is similar to the following property to the fluid flow: 1. b) e c) d) OO discharge…

A: It is asked to state the property of current similar to fluid flow

Q: • If the transformer has N₁=1,000 turns and N₂ = 5,000 turns. What will be the primary Power, (P₁),…

Q: AA-A three transformer bank, each of 10 KVA SL transformer become, disable and hence the circuit…

A: Since you have asked multiple questions in a single request, we will be answering only the first…

Q: [7] AC potential e = Esinot was applied to a capacitor (capacitance: C), and the output AC current…

A: It is given that: e=EsinωtE˙=-Ee-jπ2=-E-j=jE

Q: A group of single phase loads: 5 x1.8 kW, required to be supplied via 70° C PVC cables Knowing that…

A: Given data, Power P=5×1.8 kW The cross-sectional size of the core determines the single-phase copper…

Q: a force of 12mN acts on an electron in a downward direction. the electric field at the electron is:…

A: Given data, Force is given F=12 mN. Charge on electron e=1.6×10-19 C.

Q: 4. Find the transient charge in an RLC series circuit when: C = 0.25F L = 1H R = 20 E(t) = 50 costV

A: Since you have asked multiple questions in a single request, we will be answering only the first…

Q: Ferramenta de Graph the amplitude and phase spectra of the functions A(z) = 1 − z¯¹ and B (z) =…

A: Given: A(z)=1-z-1,B(z)=z-z-12, To find: Graph the amplitude and phase spectra of the functions.

Q: Calculate the value of V1 and V2? 12V R VI 8V B R E R + V2- 2V R D

Q: 2. Consider the following the discrete common emitter npn BJT amplifier. B-120, C₂-1 pF, C.-2.2 pF,…

Q: true or false 3.In the GSM system, the shape of the cell is round.

A: it is asked to state whether the given statement is true or false

Q: For transformer which has, N₁=1000, N₂-250, V₁=120V and RLoad of 120. • What is the value of…

A: The single phase transformer problem is solved as shown below. The solution is shown below.

Q: A sine wave has a maximum value of 10 V. Its value at 450 is 4 450 VO 14.14 VO 7,07 VO 4.5 VO

A: Given data, Maximum voltage Vm=10 V. Angle is given θ=450.

Q: Problem 09.019.a - Addition of two sinusoids using phasor cos(20t+ Using phasors, the value of 1…

Q: Required Rab: 10 ohms each

A: Given: Circuit diagram:

Q: A conducting bar can slide freely over two conducting rails as shown in the figure below. Calculate…

A: We need to find out the induced voltage for given circuit .

Q: What are the branch currents, 12 and 13 ? 늪 R1 4 kOhm V₁ 35 V R2 7.5 kOhm R3 12.5 kOhm

Q: Three phase, 50 Hz, four pole Induction motor runs at 1,388 rpm. Calculate the frequency of rotor…

A: In this question We need to determine the rotor frequency of the motor. We know Synchronous speed…

Q: O O Which of the following metal is the best magnetic material? gold Tin aluminum Iron

A: The magnetic material is used in transformer core. The magnetic material should attract toward…

Q: Solve the circuit of Exercise 3 using the mesh current method. What advantage does the method of…

A: The required parameters can be calculated by using mesh analysis and the mesh equation can be…

Q: 4. The plant in a control system has following transfer characteristics: G(s) = 20/s*(s^2 + 2*s+101)…

Q: Required information The oscillation circuit shown below uses an ideal op amp, where R₁ = 130 k and…

A: Note: Types of Op amp Oscillators Hartley Oscillator Collpits Oscillator Wein bridge oscillator RC…

Q: 80 dB is 40 10 100 80 20 OL

Q: 20 10 V 30 ***= 6A 8 3ոչ 40 -** 64 է wwx 6n> ) 12 V v

A: The question is about Thevenin equivalent circuit.

Q: Consider the DC motor shown in Figure 2. Drive the transfer (s)/V(s). Assume that all initial…

A: Types of DC Machine control Armature controlled DC Machine Voltage controlled DC Machine Flux…

Q: A point charge of 10-9 C is placed at a point A in free space. What is the intensity of…

Q: Ex 3: Circuit Modeling Using the Node Method: Two Nodes Consider the circuit shown below. a. Using…

A: Kirchoff's Law (KCL and KVL) and Ohm's law is very important to analyze electrical circuits. As per…

Q: e. Given the state space system model below, use a Laplace transform method to derive an expression…

Q: A 4x1 MUX is used to implement a 3-input Boolean function as shown in figure. The Boolean function…

A: Given: A 4×1 MUX is used to implement a 3-input Boolean function.

Q: Partial fraction expansion Find the inverse Z-transform of the function X(z) = Inversion by long…

Q: & Moving to another question will save this response. Question & A hair dryer is plugged into a 267…

Q: 10.1.27 The currents in the magnetically coupled inductors shown in Fig. P10.1.27 are known to be…

Q: E₂ - 11-2 W 12 2.5. R₁ R₂ 13 R3 E₁= E₂= ET= R₁= R₂= R3= RT= IT= |1= 12= 13= V₁= V2= V3= 5 V 9 V 14 V…

A: In this question We need to determine the unknown currents , resistances and voltage across the each…

Q: Problem 09.030 - Find current when a resistor and capacitor are in parallel A voltage (t) = 100…

Q: A 50 Ω radio transmitter connects to an antenna through a 50 Ω coaxial line. The antenna can be…

A: Given data Resistance of the radio transmitter, RS=50 Ω Impedance of the coaxial line, Zo=50 Ω…

Q: For the parallel and series capacitors values of C₁= 70 µF, and C₂=C3=35 µF, C4-70 μF, C5-C6-35 μF,…

A: Given data Series and parallel combination of the capacitive circuit is given in the problem. C1=70…

Q: iv. V. vi. How much power is the generator now supplying? How much power is supplied to the…

A: The phrase "power generation" refers to the process of producing electricity utilizing various forms…

Q: The series circuit has Vsupply= 12Volts, R1 =1ΚΩ, R2 =2 ΚΩ R3 = 3 ΚΩ ; • What is the Ryotal for this…

Q: Mesh 50 V1 1 o 11 www Mesh 25R - 2 12 V2 25U

Concept explainers

Types of Thyristors

With four layers of alternating P- and N- materials, a thyristor is a solid-state semiconductor device. It acts as a type of bi-stable switch and it conducts when the gate receives a current trigger and continues to conduct until the voltage is reverse biased across the device or by some means until the voltage is removed. The silicon-controlled rectifier is considered synonymous with thyristors by some sources. Thyristors are defined as more complex by other sources as it contains at least four-layer of alternating N-type and P-type substrate. They find large applications in the control of electrical power supplies, electric motor speed control, and ranging of light dimmers because thyristors can control large amounts of power supplies and voltage with a small device. The circuit symbol of the thyristor is given below.

Question

An energy meter connected to an immersion heater (resistive) operating on an AC 230 V, 50 Hz, AC
single phase source reads 2.3 units (kWh) in 1 hour. The heater is removed from the supply and now
connected to a 400 V peak square wave source of 150 Hz . The power in kW dissipated by the heater will
be

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Solutions of Two (2) 115 volts incandescent lamps A and B are connected in series across a 230-V source. If lamp A is rated 75 watts and lamp B is rated 50 watts. Determine the current drawn by the series connection.
An alternating current was measured by a DC milliammeter in conjunction with afull-wave rectifier. The reading on the milliammeter was 7.0 mA. Assuming thewaveform of the alternating current to be sinusoidal, calculate: (a) the r.m.s. valueand (b) the maximum value for the alternating current.
A single phase 230 V, 1 kW heater is connected across single phase 230 V, 50 Hz supply through a diode. Calculate the power delivered to the heater element.
The meter constant of a single phase 230 V induction watt hour meter is 400 rev/kWh. The speed of the meter disc for a current of 10 A of 0.9 pf lagging will be ?
Two 115-V incandescent lamps A & B are connected in series across 230-V dc source. Lamp A is rated 100 W and lamp B is rated 60 W. Which lamp is abnormally bright and hence will burn out soon? a) Lamp A b) Lamp B c) Both lamps will be abnormally bright d) Both lamps will work normally O a. Lamp A O b. Lamp B O c. Both lamps will be abnormally bright O d. Both lamps will work normally
A direct current of 12.5 A flows in a 25-ohm resistance. Determine the maximum value of an alternating current that will produce heat at the same rate in this resistance. Expresss answer to the nearest hundredths.
A series circuit consisting of a 30 – microfarad and a 0.155 – henry inductor is connected to a 120 – volt 60 – cycle source. Calculate the circuit current and indicate whether it lags behind or leads the voltage.
Two 115-V incandescent lamps A & B are connected in series across 230-V de source. Lamp A is rated 100 W and lamp B is rated 60 W. Which lamp is abnormally bright and hence will burn out soon? a) Lamp A b) Lamp B c) Both lamps will be abnormally bright d) Both lamps will work normally
Draw a graph of current against time for two complete cycles of alternating current of peak value2 A and frequency 10 Hz. Label the axes and indicate correct scale of values on them.(Hin: youhave to calculate the time for one cycle in order to mark the x-axis)
A 110-V, 50 Hz supply is connected across 15 ohm resistor. Determine the instantaneous current after 5 millisecond.
Cylindrical metallic parabolic trough solar thermal collectors. 1. Does not rotate. 2. It rotates around one axis only. 3. It rotates around two axes only. 4. They can produce a temperature of20-100 °C. 5. They can produce a temperature of200-400 °C. 6. They can produce a temperature of2000-4000 °C. O 1 + 4 only. O 2 + 5 only. 2 + 6 only O 3 + 5 only.
Enumerate and explain briefly the three basic types of alternating current circuits.