Part (a) By symmetry the electric field at point P has no component in the and z directions ✓ Correct! Part (b) Choose the correct expression for the y-component of the electric field at P due to a thin slice of the rod of thickness dx located at point : ✓ Correct! 430A rt (e) Integrate your correct choice in part (b) over the length of the rod and choose the correct expression for the y-component of the electric dat point P. 2kAd Ey Soy/d² +49 ✓ Correct! t (d) Calculate the magnitude of the electric field at point P, in newtons per coulomb. E = 9.971

Solution  all parts plz.   

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>) Problem 8: A plastic rod of length d= 1.5 m lies along the x-axis with its midpoint at the origin. The rod carries a uniform linear charge density λ = 4.5 nC/m. The point P is located on the postive y-axis at a distance yo = 35 cm from the origin. The z-axis points out of the screen. Hoang, Annvi – txh0095@mavs.uta.edu Part (a) By symmetry the electric field at point P has no component in the x and z directions ✓ Correct! dE=/ field at point P. 2kAd Ey= Bovd²+ Part (b) Choose the correct expression for the y-component of the electric field at P due to a thin slice of the rod of thickness dx located at point .x. ✓ Correct! 2+40% X rt (c) Integrate your correct choice in part (b) over the length of the rod and choose the correct expression for the y-component of the electric ✓ Correct! dx t (d) Calculate the magnitude of the electric field at point P, in newtons per coulomb. E = 9.971 olo X