A line of charge extends from x- -a to z - 0. The rod has a uniform linear charge density A. Our goal is todetermine the electric field at point P on the y axis, at an arbitrary height y above the right end of therod.In this problem, DO NOT EVALUATE any integrals. Instead, your answers will be the integrand - i.e., thefunction to be ingrated.What integral should you evaluate to determine the z-component of the electric field at point P?E -/-drWhat should the limits on the integral be? FromtoWhat integral should you evaluate to determine the y-component of the electric field at point P?|Ez-drWhat should the limits on the integral be? Fromto

A line charge extends from x=-a to x=0 ; Linear charge density=λ

A line of charge extends from x- -a to r - 0. The rod has a uniform linear charge density A. Our goal is to determine the electric field at point P on the y axis, at an arbitrary height y above the right end of the rod. In this problem, DO NOT EVALUATE any integrals. Instead, your answers will be the integrand - 1.e., the function to be ingrated. What integral should you evaluate to determine the 2-component of the electric field at point P? IE dr What should the limits on the integrat be? From to What integral should you evaluate to determine the y-component of the electric field at point P? |E, -| dr What should the limits on the integral be? From to

A line of charge extends from x- -a to r - 0. The rod has a uniform linear charge density A. Our goal is to determine the electric field at point P on the y axis, at an arbitrary height y above the right end of the rod. In this problem, DO NOT EVALUATE any integrals. Instead, your answers will be the integrand - 1.e., the function to be ingrated. What integral should you evaluate to determine the 2-component of the electric field at point P? IE dr What should the limits on the integrat be? From to What integral should you evaluate to determine the y-component of the electric field at point P? |E, -| dr What should the limits on the integral be? From to