a 0 AM 4) What is R(7074, 7074) where the integral is taken on the straight line path from point S to point P as shown? T-m 5) Suppose the magnitude of the current Iz is now doubled. How does the magnitude of the magnetic field at (x.y) = (2.9 cm, 0) change? a. B(2.9 cm, 0) increases b. B(2.9 cm, 0) decreases c. B(2.9 cm, 0) remains the same T.

I need 4 and 5 correclty final answer needed please solve it and get the thumbs up please answer should be correct 100 percent

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A solid cylindrical conducting shell of inner radius a = 5.8 cm and outer radius b = 7.4 cm has its axis aligned with the z-axis as shown. It carries a uniformly distributed current I, = 6.8 A in the positive z-direction. R(7074 707d) An inifinte conducting wire is located along the z-axis and carries a current I -2 A in the negative z-direction. S(64 64). P(a0) 1) What is B,(P). the y-component of the magnetic field at point P, located a distance d = 24 cm from the origin along the x-axis as shown? 2) What is where the integral is taken along the dotted path shown in the figure above: first from point P to point R at (x.y) = (0.707d, 0.707d), and then to point S at (x,y) = (0.6d, 0.6d). T-m 3) What is B,(T), the y-component of the magnetic field at point T, located at (x,y) = (-6.3 cm,0), as shown? T. 4) What is R(7074, 707d) where the integral is taken on the straight line path from point S to point P as shown? Pa0) Т-m 5) Suppose the magnitude of the current I, is now doubled. How does the magnitude of the magnetic field at (x,y) = (2.9 cm, 0) change? a. B(2.9 cm, 0) increases b. B(2.9 cm, 0) decreases c. B(2.9 cm, 0) remains the same