(a) A conducting bar can slide freely over two conducting rails as shown in Figure 3. Examine the induced voltage, Vem i

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A A Conducting Bar Can Slide Freely Over Two Conducting Rails As Shown In Figure 3 Examine The Induced Voltage Vem I 1 (78.48 KiB) Viewed 35 times

(a) A conducting bar can slide freely over two conducting rails as shown in Figure 3. Examine the induced voltage, Vem in the bar (i) If the bar is stationed at y = 0.04 m and H=3.1831×10* cos(10), A/m If the bar slides at a velocity u=200a, m/s and B=0.005a, Wb/m² (ii) 0.06 m X O O O P 2 O Figure 3 O O [10 Marks] [CO2, PO2, C3] z-axis (b) Consider the region defined by x>0,>0,=> 0 in a free space. If Ja = Acos(oot-Kx)a, µA/m², o = 0, and J = E, using generalized forms of Maxwell's equations, derive the expression of (i) Electric flux density D (ii) Electric field intensity E (iii) Magnetic flux density B (iv) Magnetic field intensity H [10 Marks]