Two rings of radius R-5 cm are 34 cm apart and concentric with a common vertical axis (figure below). Ring 1 carries a uniformly distributed charge Q₁ = 20 nC and ring 2 carries a uniformly distributed charge of Q₂ = -70 nC. Ring 2 [N/C] Ring 1 1. Find the magnitude of the electric field E₁ created by Ring 1 at point A, halfway between the two rings. E₁ = What is the direction of the electric 2. field E, created by Ring 1 at point A. Direction: + Write the expression of the electric 3. filed E₁ created by Ring 1 at point A. E₁ =< [N/C] Find the magnitude of the electric 4. field E₂ created by Ring 2 at point A. E₂ = [N/C] What is the direction of the electric 5. field E₂ created by Ring 2 at point A. Direction: + 6. filed E₂ created by Ring 2 at point A. E₂ =< > [N/C] Write the expression of the electric 7. If vector E₁ =< 200, 450, 240 > [N/C] and vector Ē₂ =<-130, 920, 520> [N/C]. Find the net electric filed Enet at point A.
Two rings of radius R-5 cm are 34 cm apart and concentric with a common vertical axis (figure below). Ring 1 carries a uniformly distributed charge Q₁ = 20 nC and ring 2 carries a uniformly distributed charge of Q₂ = -70 nC. Ring 2 [N/C] Ring 1 1. Find the magnitude of the electric field E₁ created by Ring 1 at point A, halfway between the two rings. E₁ = What is the direction of the electric 2. field E, created by Ring 1 at point A. Direction: + Write the expression of the electric 3. filed E₁ created by Ring 1 at point A. E₁ =< [N/C] Find the magnitude of the electric 4. field E₂ created by Ring 2 at point A. E₂ = [N/C] What is the direction of the electric 5. field E₂ created by Ring 2 at point A. Direction: + 6. filed E₂ created by Ring 2 at point A. E₂ =< > [N/C] Write the expression of the electric 7. If vector E₁ =< 200, 450, 240 > [N/C] and vector Ē₂ =<-130, 920, 520> [N/C]. Find the net electric filed Enet at point A.
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