Question 17 (1 point) Consider a thin charged ring with radius (5.400x10^1) cm and charge density (-1.1100x10^2) HC/m located in the x-y plane centred at the origin (x,y) = (0,0). What is the electric potential (8.60x10^1) cm right above the charged ring? That is a (x,y,z) = (0,0,(8.60x10^1)) cm? Provide your answer in volts (V) using proper scientific notation. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer units Question 18 (1 point) Saved Consider the two parallel wires as illustrated below that both carry a current of (6.0x10^-1) mA directed upwards. They are separated by a distance of (3.200x10^0) cm. What is the force on a 1 cm piece of the right cable, indicated by b in the figure? Give your answer in newtons (N) using scientific notation with a sign that indicates the direction along the x-axis. b y X dQuestion 17 (1 point) Consider a thin charged ring with radius (5.400x10^1) cm and charge density (-1.1100x10^2) HC/m located in the x-y plane centred at the origin (x,y) = (0,0). What is the electric potential (8.60x10^1) cm right above the charged ring? That is a (x,y,z) = (0,0,(8.60x10^1)) cm? Provide your answer in volts (V) using proper scientific notation. Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: x10 Answer units Question 18 (1 point) Saved Consider the two parallel wires as illustrated below that both carry a current of (6.0x10^-1) mA directed upwards. They are separated by a distance of (3.200x10^0) cm. What is the force on a 1 cm piece of the right cable, indicated by b in the figure? Give your answer in newtons (N) using scientific notation with a sign that indicates the direction along the x-axis. b y X d