40_ In a cartesian system, vector magnetic potential at a point (x,y,z ) is defined as A = 4x² ya, + 2ỷ xa, – 3xyza, wb/m The total magnetic flux through the surface z = 4, 0
Q: A rectangular loop as shown below lies in the xy-plane at z = 0. Find the total force exerted on the…
A: The total force exerted on the loop will be the sum of the forces acting on all the four conductors…
Q: A current I flows in a wire along the curve x = 2y = z2 + 2 and in the direction of increasing z. If…
A: Given that, x=2y=z2+2 it is in the direction of increasing Z Magnetic field B'=(yax'-xay')/(x2+y2)…
Q: Q6) Evaluate both sides of Stoke's theorem if the vector magnetic potential equals 25 p a, Wb/m in a…
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Q: Problem 2: Use Gauss' theorem to determine f, D.dS, where the electric flux density is D = 3x2a, -…
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Q: Given the magnetic vector potential A = -p²/4 a, Wb/m, całculate the total magnetic flux crossing…
A: Given, The magnetic vector potential, A=-ρ24az Wbm The surface, ϕ=π2, 1≤ρ≤2 m, 0≤z≤5 m
Q: In the upper half space, which is the empty space, I = 7 A current flows from the infinitely long…
A: Given:-I=7Aμr=5
Q: Let D* = y'z'a + 2xyza, + 3xy'z a, pC/m' in free space. a. Find the total electric flux passing…
A: Electric flux. This is the electric field line that flows from the surface in the direction of the…
Q: 4) In a cylindrical coordinate system, a 2m long straight wire is carrying a current of 5A in z-…
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Q: A cube is defined by 1 < x, y, z < 1.2. If D = 2x²ya, + 3xry'a, C/m2: (a) apply Gauss's law to find…
A: All u need to know is guess law and divergence
Q: 1) The magnetic flux density in a region of free space is given by B = 2xz ax +y2x ay - 2zx az T.…
A: In the given problem, we have the Magnetic flux density, and we have to calculate the value of total…
Q: Q (4): By evaluating both sides of the divergence theorem for the field: D +z) a,+ xy a, + 2z a,…
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Q: 3. Given the magnetic vector potential A = -r /4 az Wb/m in region o = T/2, 1 <r<2m, 0 <z<5 m,…
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Q: HW1: let us determine H at P (4,0,5) in the field of an 6-A filamentary current directed inward from…
A: Given data : In given figure point at H = (4,0,5) The current along z- axis =6 A The coordinate of…
Q: Magnetic field lines of a wire carrying a current I (A) located at the z-axis: Select one: O a.…
A: Magnetic field lines due to current carrying I at the z axis.
Q: 5.1) An electron with a speed of 16x lo° m/s is projected along the positive x direction into a…
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Q: In a cartesian system, vector magnetic potential at a point (x.y,z) is defined as A = 4x?yax +2y2xay…
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Q: A cube is defined by 1 < x, y, z < 1.2. If D = 2x²ya, + 3x²y²a, –6z²a.C/m² (a) Apply Gauss's law to…
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Q: The magnetic field intensity is given in a certain region of space as x+2y , +a, Am. (a) Find V xH.…
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Q: (a) The electric flux density is given as D= 6yax + 2xa,+ 14xya, mC/m2. Determine the electric flux…
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Q: 3) The magnetic vector potential of a current distribution in free space is given by Ả = 10e¬P…
A: Given magnetic vector potential,
Q: A vector magnetic potential A is given by equation below, cross a section of a cylindrical conductor…
A: Line integral of vector potential over the surface gives total flux leaving the surface. By…
Q: Uniform current sheets are located in free space as follows: 5a, A/m at y = 0, -5a, A/m at y = 1,…
A: A magnetic field is a place where the magnetic force is felt, the magnetic field is tested or…
Q: A cube is defined by 1 < x, y, z < 1.2. If D = 2x²ya, + 3x²y²ay – 6z?a.C/m? (a) Apply Gauss's law to…
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Q: In free space, let D = 8xyz*a, + 6x?z*ã, + 16x?yz'a, pC/m². 37 2 %3D
A: We need to find out electric flux Passing through the given surface .
Q: A cube is definced by 1 < x, y, z < 1.2. If D = 2x?ya, + 3x?y'a, – 67a,C/m? (a) Apply Gauss's law to…
A: Given that, D=2x2yax+3x2y2ay-6z2az C/m2 a) Applying Gauss's law to find the total flux leaving the…
Q: Q3) Given the magnetic vector potential A = p*a, Wb'm, calculate the total magnetic flux crossing…
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Q: 4.0, is in the shape A diamagnetic material, with diamagnetic susceptibility of XB of a cylinder.…
A: The solution is given below
Q: Problem 2 Use Gauss' theorem to determine f, D.dS, where the electric flux density is D = x²ax -…
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Q: A cube is defined by 1 < x, y.z < 1.2. If D = 2x²ya, + 3x²y²a,-62 a,C/m (a) Apply Gauss's law to…
A: As we have given 1<x,y,z<1.2D=2x2yax+3x2y2ay-6z2azx1=1 x2=1.2y1=1 y2=1.2z1=1 z2=1.2
Q: 4) In a cylindrical coordinate system, a 2m long straight wire is carrying a current of 5A in z-…
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Q: Q3) In free space, calculate the total electric flux leaving the cylinderical surface defined by:…
A: We need to find out flux leaving the surface due to given charge distribution .
Q: Find the current density for the given magnetic field intensity H = 2xy âg + (x2 – z²)ây – 3xz? â,…
A: we need to find out current density.
Q: Q3) In free space, calculate the total electric flux leaving the cylinderical surface defined by:…
A: We need to find out charge enclosed by given surface .
Q: Q5) A vector magnetic potential of Am=p Cos o a,-p Sin o as + z cos o a, Wb/m. Calculate the…
A: vector magnetic potential Am=ρcosϕ aρ-ρ2sinϕ aϕ+z2cosϕ az Wb/m
Q: The magnetic field H = which creates this magnetic field form the point P1(2,1,0) to point…
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Q: 4. Find the current density for the given magnetic field intensity H = 2xy âz + (x² – z?)ây 3xz2 â,…
A: current density J = ∇×HGiven H = 2xy ax+(x2-z2)ay-3xz2az
Q: Let a magnetic field be given in the vacuum of the form B= a(3x, 2y, 0) with respect to a Cartesian…
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Q: sing Given that D = 2pcosp a, az, in cylindrical coordinates, find the flux crossing 2p %3D the…
A: We need to find out flux crossing the given surface
Q: Q.1 A Magnetic vector potentialA = (p/4) az, wb/m. Calculate the total magnetic flux crossing the…
A: Given A =ρ44az, wb/m ϕ =π42≤ρ≤4-2≤Z≤4
Q: Q5) A vector magnetic potential of Am =p Cos o a, - p Sin ø as + z cos o a, Wb/m. Calculate the…
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Q: 6- In free space, an infinite line conductor carrying I [A] DC current is bent into L shape.…
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Q: I Review I Constants A circular conducting ring with radius ro = 0.0420 m lies in the xy-plane in a…
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Q: I = 7 A current flows from the infinitely long wire along the y axis that intersects the z axis at…
A: The magnetic field due to an infinitely long current carrying wire at any point r→ is given…
Q: In the upper half space, which is the empty space, I = 7 A current flows from the infinitely long…
A: Magnetic field due to infinite current carrying wire: The magnetic field due to infinite current…
Q: A cube is defined by 1 < x, y, z < 1.2. If D = 2x²ya, + 3x?y'a, -62 a.C/m? (a) Apply Gauss's law to…
A: Given electric flux density D¯=2x2yax+3x2y2ay-6z2az According to Gauss Law; Electric Flux ψe=∬D¯.dA¯…
Q: For Problems 1, 2, and 3: Volume current density in a medium is given with the following equation in…
A: Given, volume current density in the cylindrical coordinate system J¯v=3z^ Am2,2<r<60otherwise…
Q: Q4/A coaxial transmission line has a = 4 mm and b = 20 mm. Let its center lie on the y axis and let…
A: Using the boundary condition of continuity, As per the relation of magnetic field density with…
Q: 2. When the magnetic field intensity expression is H = ya, - xa, A/m on plane z= 0, a) Determine the…
A: Current density J= curl of H. current passing through the region = surface integral of current…
Q: Q2) The magnetic field intensity is given in a certain region of space as x+ 2y H = ay +za, A/m The…
A: Current through the surface I = closed line integral ( H.dl) =surface integral( ( curl(H).ds). First…
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- In a cartesian system, vector magnetic potential at a point (x.y,z ) is defined as A = 4x2yax +2y2xay -3xyzaz The total magnetic flux through the surface z = 4, 0 sxs1, -1 sys4 will be None of These 112/3 40 130/33. A magnetic circuit consists of silicon steel 3000 permeability of 10-cm length and cross section of 1.5 sq.cm and an air gap of the same cross section and of 2 cm length. A ½ ampere current flows through 500 turns. What is the field intensity at the air gap? a. 156.8 Gauss b. 135.6 Gauss c. 140.6 Gauss d. 164.0 GaussIn a cartesian system, vector magnetic potential at a point (x.y,z) is defined as A = 4x2yax +2y²xay -3xyzaz The magnetic flux density at point (1, 0, 0) will be -3ax+3ay-2az -4az 2az -2az
- Question 10 In a cartesian system, vector magnetic potential at a point (x.y.z ) is defined as A = 4x2yax +2y²xay -3xyzaz The magnetic flux density at point (0, 1, 0) will be -2az -4az -3ax+3ay-2az 2azIn a cartesian system, vector magnetic potential at a point (x,y,z) is defined as A = 4x?yax +2y2xay -3xyzaz A 3D The total magnetic flux through the surface z=4,0Three long, parallel, straight wires each carrying a 8.0 A current pass through the vertices of an equilateral triangle (L= 8.0 cm) as shown in the figure below. Currents on wires B and C are out of page while that of wire A is into the page. What is the r and y components of the magnetic field vector at the point of the wire B? Give your answer in uT. В The answer is integer. L CA Moving to another question will save this response. Quèstion 7 In a cartesian system, vector magnetic potential at a point (x,y,z ) is defined as A = 4x?yax +2y?xay 3xyzaz %3D The total magnetic flux through the surface z= 4,0In a cartesian system, vector magnetic potential at a point (x.y,z) is defined as A = 4x²yay +2y²xay 3xyzaz The total magnetic flux through the surface z = 4,0Integrating over the current gives the total magnetic field. An integration variable s is defined in the diagram below. We want to integrate over the infinitely long straight wire to determine the magnetic field at point P which is a distance R from the wire. Which statement below is true? ds P---- so B = [∞ H,I R²+s² ds s R and sin ø = r = 2TR ds R R so B = J_∞ 4n s²(R²+s²)/² r = s and sin ø R²+s² 2nR O HoI so B = J_∞ 4n (R²+s²)°/² ds s HoI r = VR? + s² and sin ø R²+s? 2TR R ds HI R and sin ø = So B R²+s² Lo AT R(R²+s²)'/² 2TR O HoI so B = J_∞ 4n (R²+s²)®/² R ds R r = R + s² and sin o R²+s² 2nRAn infinitely long conductor of radius 18 cm carries a uniform current with J = 142 A/m², the magnetic vector potential at p = 9 cm is %3D O a. -106.88ây nWb/m O b. -35.63âz nWb/m O c. -106.88åz nWb/m O d. -35.63ây nWb/m O e. -178.13åz nWb/m O f.-178.13ây nWb/mThree long, parallel, straight wires each carrying a 8.0 A current pass through the vertices of an equilateral triangle (L = 8.0 cm) as shown in the figure below. Currents on wires B and C are out of page while that of wire A is into the page. What is the x and y components of the magnetic field vector at the point of the wire B? Give your answer in uT. B Her birinden 8,0 A akım geçen üç uzun ve birbirine paralel düz tel bir kenarı L-8,0 cm olan bir eşkenar üçgenin köşelerinden geçmektedirler. B ve C tellerinden geçen akım sayfa düzleminden bize doğru, A telinden geçen akım sayfa düzleminden içeri doğrudur. B telinin üstünde manyetik alanın x ve y bileşenleri µT cinsinden nedir? YanıtınızIn a cartesian system, vector magnetic potential at a point (x,y,z) is defined as A = 4x²yay +2y²xay 3xyzaz The total magnetic flux through the surface z = 4, 0SEE MORE QUESTIONSRecommended textbooks for youIntroductory Circuit Analysis (13th Edition)Electrical EngineeringISBN:9780133923605Author:Robert L. BoylestadPublisher:PEARSONDelmar's Standard Textbook Of ElectricityElectrical EngineeringISBN:9781337900348Author:Stephen L. HermanPublisher:Cengage LearningProgrammable Logic ControllersElectrical EngineeringISBN:9780073373843Author:Frank D. PetruzellaPublisher:McGraw-Hill EducationFundamentals of Electric CircuitsElectrical EngineeringISBN:9780078028229Author:Charles K Alexander, Matthew SadikuPublisher:McGraw-Hill EducationElectric Circuits. (11th Edition)Electrical EngineeringISBN:9780134746968Author:James W. Nilsson, Susan RiedelPublisher:PEARSONEngineering ElectromagneticsElectrical EngineeringISBN:9780078028151Author:Hayt, William H. (william Hart), Jr, BUCK, John A.Publisher:Mcgraw-hill Education,Introductory Circuit Analysis (13th Edition)Electrical EngineeringISBN:9780133923605Author:Robert L. BoylestadPublisher:PEARSONDelmar's Standard Textbook Of ElectricityElectrical EngineeringISBN:9781337900348Author:Stephen L. HermanPublisher:Cengage LearningProgrammable Logic ControllersElectrical EngineeringISBN:9780073373843Author:Frank D. PetruzellaPublisher:McGraw-Hill EducationFundamentals of Electric CircuitsElectrical EngineeringISBN:9780078028229Author:Charles K Alexander, Matthew SadikuPublisher:McGraw-Hill EducationElectric Circuits. (11th Edition)Electrical EngineeringISBN:9780134746968Author:James W. Nilsson, Susan RiedelPublisher:PEARSONEngineering ElectromagneticsElectrical EngineeringISBN:9780078028151Author:Hayt, William H. (william Hart), Jr, BUCK, John A.Publisher:Mcgraw-hill Education,