Explanation 1) Concept: Applying the Gauss law for magnetism, we can write that the flux through the S 1 portion, i.e., upside portion, is equal to the flux through the S 2 , i.e., down side portion, of the XY plane that lies within the cylinder in terms of magnetic field and length of circular cylinder. Then using the formula for magnetic field due to the current passing through an infinite straight wire, we can find an expression for the net outward magnetic flux through half of the cylindrical surface above the x axis. 2) Formula: Φ B = ∮ B → . d A → 3) Given: Two wires, parallel to Z axis and distance 4 r apart carry equal current i in opposite direction. Hint: The flux through the portion of the x z plane that lies within the cylinder. 4) Calculations: Applying the Gauss law for magnetism, the flux through the S 1 portion, i.e., upside portion, is equal to the flux through the S 2 , i.e., downside portion, of the xz plane. According to Gauss law, Φ B = ∮ B → . d A → In this case, the magnetic flux through S 1 portion is Φ B S 1 = ∫ - r r B x L d x Similarly, the magnetic flux through portion S 2 is Φ B S 2 = ∫ - r r B x L d x But the magnitude of magnetic field is the same in both the portions. So, Φ B S 1 = Φ B S 2 The net magnetic flux is Φ B s = 2 ∫ - r r B x L d x where the magnetic field due to the current passing through an infinite straight wire is B = μ 0 i 2 π r Here, the r is 2 r - x So that the magnetic field is B = μ 0 i 2 π 2 r - x Hence, Φ B s = 2 <

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Chapter 32, Problem 4P

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An expression for the net outward magnetic flux through half of the cylindrical surface above the x axis.

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