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Question Tries remaining: 4 Points out of 1.00 Given two concentric, infinitely long, uniformly charged cylindrical shells of radii r = 4 meters and r = 19 meters calculate E at r = 5.57 meters. The electrostatic potential, V is 90 volts more positive on the larger cylinder (at r = 19) than on the smaller cylinder Assign the value of V(r = 4) on the smaller cylinder to be 0 [volts] (i.e., "grounded"). The space between the shells is empty (vacuum) Find the f-component. Give the answer in units of V/m. Give three significant figures. Flag question Answer: Check Question 2 Tries remaining: 4 [meters]. The electrostatic potential, V, is 90 [volts] more positive on the larger cylinder (at r 19) than on the smaller cylinder. Assign the Points out of 1.00 pFlag question Find the φ-com Given two concentric, infinitely-long, uniformly-charged, cylindrical shells of radir 4 [meters] and r 19 [meters], calculateatr 5.57 value of V(r 4) on the smaller cylinder to be 0 [volts] (i.e., "grounded"). The space between the shells is empty (vacuum) ponent. Give the answer in units of V/m. Give three significant figures. Answer: Check Question 3 Tries remaining: 4[meters]. The electrostatic potential, V, is 90 [volts] more positive on the larger cylinder (at r 19) than on the smaller cylinder. Assign the Points out of 1.00 Given two concentric infinitely long, uniformly charged, cylindrical shells of radil r = 4 meters and r = 19 meters calculate E at r = 5.57 value of V(r-4) on the smaller cylinder to be 0 [volts] (i.e., "grounded"). The space between the shells is empty (vacuum) Find the component. Give the answer in units of V/m. Give three significant figures Flag question Answer:
Question Tries remaining: 4 Points out of 1.00 Given two concentric, infinitely long, uniformly charged cylindrical shells of radii r = 4 meters and r = 19 meters calculate E at r = 5.57 meters. The electrostatic potential, V is 90 volts more positive on the larger cylinder (at r = 19) than on the smaller cylinder Assign the value of V(r = 4) on the smaller cylinder to be 0 [volts] (i.e., "grounded"). The space between the shells is empty (vacuum) Find the f-component. Give the answer in units of V/m. Give three significant figures. Flag question Answer: Check Question 2 Tries remaining: 4 [meters]. The electrostatic potential, V, is 90 [volts] more positive on the larger cylinder (at r 19) than on the smaller cylinder. Assign the Points out of 1.00 pFlag question Find the φ-com Given two concentric, infinitely-long, uniformly-charged, cylindrical shells of radir 4 [meters] and r 19 [meters], calculateatr 5.57 value of V(r 4) on the smaller cylinder to be 0 [volts] (i.e., "grounded"). The space between the shells is empty (vacuum) ponent. Give the answer in units of V/m. Give three significant figures. Answer: Check Question 3 Tries remaining: 4[meters]. The electrostatic potential, V, is 90 [volts] more positive on the larger cylinder (at r 19) than on the smaller cylinder. Assign the Points out of 1.00 Given two concentric infinitely long, uniformly charged, cylindrical shells of radil r = 4 meters and r = 19 meters calculate E at r = 5.57 value of V(r-4) on the smaller cylinder to be 0 [volts] (i.e., "grounded"). The space between the shells is empty (vacuum) Find the component. Give the answer in units of V/m. Give three significant figures Flag question Answer: