Q3 A current distribution gives rise to the vector magnetic potential A =xy ax +yx a, - 4xyz a. Wb/m. Calculate (a) B at ( - 1, 2, 5) (b) The flux through the surface defined by z=1,0
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- ll Wataniya Mobile 7:28 PM @ 0 38% Done 5.4 The Magnetic Vector Potential Excersise: An ellipsoidal shell with a charge density y? z2 +. Rotates with an angular frequency = w2. Find the magnetic field at the origin a Chapter 5: Magnetostatics The magnetic Vector Potential 13 BIRZEIT UNIVERSITY MoreFind the total flux created by the vector A = axx2 + ayy2 + azz2 on all surfaces of the cube with a side 1 m in a region 0 <x, y, z <1. A. 3 B. 2 C. None D. 4 E. 1 this is an electromagnetic waves lesson question. The original of the problem is attached.A7
- a) The current passing through a circular wire with radius a is P(0,0,h) h given as i. Find the magnetic field strength at the point P (0,0,h) on the circle axis using the Biot-Savart method. b) Find the magnetic field strength at the center of the circleTwo coplanar, concentric rings are shown below. The radius of ring C2 is much smaller than that of ring C1 (R2<<R1), so that the magnetic field produced by C1 is approximately uniform over the area of C2. What is the mutual inductance M?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, 0A charged particle with speed v = 2 × 105 m/s enters a uniform magnetic field of B = 1.7 T. The velocity of the particle makes an angle of T/3 rad with the magnetic field. Mass and charge of the particle are m = 2.5 x 10-27 kg and q = 8 x 10-19 C, respectively. B Find the pitch of the helical path taken by the particle in ĮPitch units of millimeters. Answer: aleaConsider the situation shown in the figure below. An electric field of 300 V/m is confined to a circular area d = 10.3 cm in diameter and directed outward perpendicular to the plane of the figure. Consider that the field is increasing at a rate of 19.6 V/m .S. Eout P (a) What is the direction of the magnetic field at the point P, r upwards downwards = 15.1 cm from the center of the circle? (b) What is the magnitude of the magnetic field at the point P, r T = 15.1 cm from the center of the circle?1. The figure shows a fixed conducting wire, bent to form a square frame of side b, lying in the xy-plane. Throughout the region of the figure, there is a spatially non-uniform, time-dependent magnetic field given by B = kx² cos(wt) 2 where k and w are constants. Neglecting any effects due to the frame's self- inductance, find the magnitude of the current in the frame as a function of time. The frame's resistance is R. b b xGiven the vector magnetic potential A=10 sinθ aθ, find the magnetic flux density B in the sphericalcoordinates at (2, π/2, 0)ElectromagneticsQuestion 5 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, 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,