A rod of length ( lying along y axis carries a positive charge q and the charge distribution is uniform as shown in the figure. Another rod of length L, which is placed along x axis between x=a and x=a+L, carries linear charge density given by A = Ao(x² +(²/4)/2 where Ao is a constant. Calculate the magnitude of the electric force acting on the rod lying along y axis (k is the Coulomb's constant.). e/2 x=a x=L+a l/2 a L ielect one: L+l kAoq- a L. kAoq In(1+=) EL In(1+ a2 €L kλogln (1 + L+l
A rod of length ( lying along y axis carries a positive charge q and the charge distribution is uniform as shown in the figure. Another rod of length L, which is placed along x axis between x=a and x=a+L, carries linear charge density given by A = Ao(x² +(²/4)/2 where Ao is a constant. Calculate the magnitude of the electric force acting on the rod lying along y axis (k is the Coulomb's constant.). e/2 x=a x=L+a l/2 a L ielect one: L+l kAoq- a L. kAoq In(1+=) EL In(1+ a2 €L kλogln (1 + L+l
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