An infinitely long straight wire carrying current = 6A as shown in figure. What will be the total magnetic flux crossing through the rectangular loop ? В 2 m 4 m A 2 m 0.867 μWb 0.648 μWb 0.973 uWb

An infinitely long straight wire carrying current = 6A as shown in figure. What will be the total magnetic flux crossing through the rectangular loop ? В 2 m 4 m A 2 m 0.867 μWb 0.648 μWb 0.973 uWb

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 3.1MCQ: The Ohms law for the magnetic circuit states that the net magnetomotive force (mmf) equals the...

See similar textbooks

Related questions

Q: long straight wire placed along az -axis carries a current of I= 8 A in the +az direction. The…

A: In this question , we will find magnetic flux density due to long current carrying wire...

Q: Figure shows four infinitely long wires carrying the indicated currents. Find the magnetic flux…

A: Here we deal with the electromagnetic field theory related concepts.

Q: Example 1: In the following electromagnetic system, calculate the magnetic flux in the ferromagnetic…

A: In this question we need to find the magnetic flux in the given fig. To find flux we need to find…

Q: A current of I = 2 A flows in the +z direction through an infinitely long conductor wire placed…

A: A current carrying wire produce magnetic field. The direction is obtained by right hand rule. Biot…

Q: Using the Ampere's circuital law, determine the magnetic field intensity H at a distance r from a…

A: In this question we need to find a magnetic field intensity at point P using Ampere circuital law .

Q: . Find the current density when the magnetic flux density is equal to 50 μ unit and the differential…

Q: A) A Nichrome wire, of length 6 m, is first converted into 3-turn circular loop and then 2-turn…

Q: Magnetic fields can produce an electric current in a closed loop, but only if the electric flux…

A: This is a very good question based on electromagnetic induction phenomenon. In this we are having a…

Q: An infinitely long straight wire carrying current I = 6A as shown in figure. What will be the total…

Q: a Moving to another auestion will save this response Question 8 The magnetic flux density in a…

A: We know formula for force on a current carring wire.

Q: Through a conducting loop, the magnetic flux changes with time as .-6r- 18r T m². If the resistance…

A: by faradays law of lectro magnetic induction Emf induced E = -N×dqdt and current i = E/resistance of…

Q: x x x x x x x x Rx Faplicada

A: By given current and resistance we will find out the emf then from emf we will find velocity of rod

Q: An infinitely long straight wire carrying current I= 4A as shown in figure. What will be the total…

A: 0.648 microWb.

Q: What will be the length (in meter) of conductor required to generate 3 V when passing through and…

Q: Made of cast steel and magnetizing curve given above left In the magnetic circuit in the figure, the…

Q: An infinitely long filamentary wire and two rectangular loops are shown in Figure 1. The filamentary…

Q: Find the current density when the magnetic flux density is equal to 50 μ unit and the differential…

Q: The magnetic field strength inside a certain solenoid is 0.025 T. If a 3.2 cm conducting strip,…

A: Given: Magnetic field strength, B=0.025 T Length of strip, L=3.2 cm Length is perpendicular to the…

Q: Question: A conductor has length 0.5 m is putted perpendicular on homogenous magnetic field, its…

Q: Consider the arrangement shown in %3D the figure below. Assume that R = 6.00 Q, 1=1.20 m, and a…

A: Given, Resistance, R = 6 ohm Length, l = 1.20 m Magnetic field, B = 2.50 T Current, I = 11.9 A

Q: Q4 (i) The material of the magnetic circuit shown in Figure 4.1 has the magnetisation curve shown in…

A: Every current carrying wire produces its own magnetic field. The direction of magnetic field is the…

Q: Problem # 2 A solenoid that is 100.0 cm long has a cross-sectional area of 10.0 cm². There are 500…

A: Given: A solenoid with Length, L=100.0 cm Cross sectional area, A=10.0 cm2 Turns, N=500 Current,…

Q: Question 32 Calculate the magnetic field intensity due to a solenoid of turns 50, current 2A and…

Q: Determine the direction of the induced current in the circuit using the figure below if a conducting…

Q: 4. Find the magnetic field at the center of the square if each distance between wires is 10 cm and…

A: Magnetic field due to a current carrying wire at point P H=I4πRcosθ1+cosθ2B=μH

Q: What would be the magnetic flux density (B) value in a 50 cm radius toroid wound on a ferromagnetic…

A: Given A toroid has r= 50cm = 0.50 m N= 100 turns, relative magnetic permeability of μr=1000, I=250…

Q: An infinitely long filamentary wire and two rectangular loops are shown in Figure 1. The filamentary…

Q: One half of the circuit, formed by a 2 m square twisted wire on one side, is located in the region…

A: one half of the circuit, formed by a 2m2 twisted wire on one side is located in the region where the…

Q: An infinitely long straight wire carrying current I = 2A as shown in figure. What will be the total…

A: Using amperes law we will calculate flux intensity produced by infinite line charge. flux passing…

Q: Figure shows a wire carrying a current i = 4.0 A in the positive B = (3.0 T/mly i 4 (3.0 T /m)y i…

A: force exerted on a wire placed in magnetic filed will be dF→=IdL→×B→ here dF→ is the force exerted…

Q: A wire with length 120cm is placed along x-axis and carrying 10A current coming out of the axis. It…

Q: If a finite length of wire having a total length QR = 80 m, a current of 10 A is flowing in it. A…

Q: An infinitely long straight wire carrying current I= 4A as shown in figure. What will be the total…

Q: Consider the magnetic circuit in Figure. Assuming that the core µ= 1000µo has a uniform cross…

Q: 1. If a current of 5A flows through a long wire of radius 0.002meter, what is the intensity of…

A: Given data: Long wire radius, r=0.002 m Current I=5 A Distance from wire R=0.04 m

Q: メメ The following diagram shows a conductor of length = 0.4 meters moving in a magnetic B field of…

A: E= L * ( V * B ) L= 0.4m Velocity V is along -X axis. V= 2m/s (-ax) B is into the plane that is -Z…

Q: 3- Find the magnetic field intensity at the radius of 6 cm of a coaxial cable with inner and outer…

A: We need to select the correct option as per the given condition.

Q: An infinitely long filamentary wire and two rectangular loops are shown in Figure 3. The filamentary…

A: Using ampers law find magnetic field strength and than calculate magnetic flux density. Now using…

Q: 1 mm 0.5 mm 1.2 mm 0.5 mm 2 (mm) Find the flux density on airgap. Current is 2 A, N=20 turns ,…

A: Given: Current, I=2 A Number of turns, N=20 turns Relative permeability, μr=2000 Depth, l=1 mm To…

Q: An infinitely long straight wire carrying current I = 2A as shown in figure. What will be the total…

A: Flux through the surface = surface integral of (B.ds). We will calculate flux intensity due to…

Q: A circular loop is oriented 35.0 degrees to a 0.752 T magnetic field. If the magnetic flux through…

A: Given, Magnetic field, B=0.752 T Magnetic flux, ϕ=0.0303 Wb Orientation of circular loop with…

Q: Calculate the magnetic field intensity due to a solenoid of turns 50, current 2A and length 80cm.…

Q: Two ant-parallel, semi-infinite, current-carrying wires of separationd are connected by a…

A: Given a two semi infinite anti parallel lines connected by a semi circle with a diameter d

Q: A long straight wire placed along az -axis carries a current of I=8 A in the +az direction. The…

Q: If a finite length of wire having a total length QR = 80 m, a current of 10 A is flowing in it. A…

A: The value of the magnetic field density at point P is given as:

Q: One half of the circuit, formed by a 2 m square twisted wire on one side, is located in the region…

A: Given 20V supplied applied to the circuit. which is square in shape of 2m each side.

Q: Which one or ones of the following statements about an ideal solenoid carrying a uniform current are…

A: A solenoid is similar to magnetic bar , which has north and south poles exist ,and surrounded by a…

Q: A circular loop of radius 0.0400 m is oriented 35.0 degrees to a 0.152 T magnetic field. What is the…

A: Given, Radius of circular loop, r=0.0400 m Orientation with magnetic field, θ=35.0° Magnetic field,…

Q: Two lung parallel wire are 4cm apart and carry currents of 24 and 6A in the Same direction. a) Solve…

A: Formula to calculate magnetic field B is: B=μ0×I2π×r

Question

An infinitely long straight wire carrying current| = 6A as shown in figure. What will be the total magnetic flux crossing through the rectangular loop ?
В
2 m
4 m
2 m
0.867 pWb
0.648 uWb
0.973 uWb

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 with 2 images

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

a filamentary wire is bent to form a square loop of side 3 m lying in the x -y plane as shown in the figure. If the current flowing in the wire is I = 1A, calculate the magnetic flux density at the center of the loop will be
A circular flat surface has a radius of 3.5 ft in a uniform magnetic field. Calculate the magnetic flux density through the surface in gauss. The magnetic flux is 23 µWb. Answer in Engineering Notation.
Four long, parallel conductors carry equal currents of I = 5 A. The figure shows one end of the conductors. The direction of the current is towards the page at points A and B (indicated by the crosses) and out of the page at C and D (indicated by the points). Calculate the magnitude and direction of the magnetic field at point P, located in the center of the 0.200-m square.
A long straight wire placed along az -axis carries a current of I = 6 A in the +az direction. The magnetic flux density at a distance r = 5cm from the wire will be
An infinitely long straight wire carrying current I = 2A as shown in figure. What will be the total magnetic flux crossing through the rectangular loop ?
A current flows through a long straight conductor. If the magnetic field strength at a distance of 5 cm from the conductor is 8 mT, calculate the current flowing through the conductor.
Consider the arrangement shown in the figure. Assume that R = 6Ω, l = 1.20 m, and a uniform magnetic field of 2.50 T directed down the page. How quickly must the rod move to produce a current of 0.500 A in the resistor?
Solve for flux density (in gauss) from a magnetic flux of 5,000 Mx through a perpendicular area of 2cm x 5cm
The width of the rectangular ring shown in the figure is l=80 cm. Conductive rod, multion long conductor rails and through a static magnetic field B=z10x u = 1 m/sis moving fast. The rod moves from the point z=0 at time t = 0 s.starts. How many volts is the emf induced between terminals 1 and 2 at t = 5 s?
this is an electromagnetic field and waves lesson question. Please only give the correct answer. (for example correct answer is A,B ..etx) A 2 cm wide flow strip carries a flow of 30.0 A in the axial direction, as seen in the figure above. If the uniform area B = 1 month T, find the force per unit length on the strip. A. -30ay B. 30az C. 3az D. 30ay
A loop of wire is bent to have straight and circular arc shaped parts as shown in the figure. A constantcurrent I of 36A flows through the wire in the direction depicted in the figure. If the length R equals13 cm, determine the magnitude and the direction of the magnetic field produced by the loop of wireat point O by using Biot-Savart’s Law (µ0=≈1.26x10-6 T.m/A)
An ideal core (assume relative permability is infinity) with a crossectional area of 12 cm2is excited via 10A current flowing through coil with 200 turns. On the one side of the coil, a 1 cm long paramagnetic material (µr=1) is placed. Calculate the magnetic field on paramagnetic material