Exercise 2 The magnetic field in free space isH = ŷ Hm COs (wt – Bz)In free space, o = 0 so that J = 0. Also e = €0. Determine the correspondingelectric field from Ampere's law. (Ans: xHmcos (wt – Bz)).|WEOExercise 3 Determine whether the following fields satisfy Ampere's law in freespace: D = ÿ Dm sin x sin t, H = 2Dm coS x cos t.(Ans: yes).Exercise 4 Show that the fields E = xEm COS (wt – Bz) and H= ŷHm COs (wt – Bz)satisfy Gauss law in free space, where µ = µo_and e = €0 _and no free charge ispresent, p= 0.

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Problem 20.49 Two long, straight, parallel wires are 10.0 cm apart and carry 5.00 A currents in the same direction (see (Figure 1)). Figure 10 10.0 cm OI ▼ ▾ Part A Find the direction of the magnetic field at point P₁, midway between the wires. Please Choose Submit Request Answer Part B Find the magnitude of the magnetic field at point P₁. midway between the wires Express your answer in telsas to three significant figures. B₁ = Submit Part C [-] ΑΣΦ 4 Request Answer Part D Submit Request Answer → Find the direction of the magnetic field at point P₂, 32.0 cm to the right of P₁. Please Choose ? V T Find the magnitude of the magnetic field at point P₂. 32.0 cm to the right of P Fxpress your answer in telsas to three significant figures P Pearson 5 of 21 > Review | Constants
Exercise 1. The on-axis magnetic field due to a circular current loop of radius R lying flat in the x-y plane, centered at the origin, and carrying current / is given by Equation 1. We will take this formula for granted today and derive it officially next week. B₂ = Show that Equation 1 is equivalent to Express Bo in terms of Mo, R, and I. What is Bo for /=200A and R=0.1 m? Ho I 2πR² 4π (R²+z²)3/2 R³ B₂ = Bo (R² + z²)³/² where Bo is the magnetic field at the center of the loop. (1) Graph B₂ as a function of z from z=-2R to z=2R (using the numerical values above) in Excel. Make it easy to vary the values of R and I.
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Exercise 2 The magnetic field in free space is H = ŷ Hm COs (wt – Bz) In free space, o = 0 so that J = 0. Also e = €0. Determine the corresponding electric field from Ampere's lauw. (Ans: x- cos (wt – Bz)). WEO