Problem 6: Consider the arrangement of three point charges in a right triangle shown in e figure, which have charges g1 = 5.5 µC, g, = -79 µC, and g3 = 15 µC. The distance between g, nd gz is 32 cm and the distance between g, and gz is 74 cm. 93 Candomized Variables _ - 55 μC 2 = -79 µC s = 15 µC b = 32 cm = 74 cm a 92 Part (a) How much potential energy, in joules, is stored in this configuration of charges? U= sin() cos() tan) HOME cotan() asin() acos() E 5 6 atan() acotan() sinh() 1 2 cosh) tanh() cotanh() END ODegrees O Radians vol BACKSPACE CLEAR

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Problem 6: Consider the arrangement of three point charges in a right triangle shown in 93 the figure, which have charges g1 = 5.5 µC, q2 = -79 µC, and q3 = 15 µC. The distance between g1 and g2 is 32 cm and the distance between g, and q3 is 74 cm. Randomized Variables 91 = 5.5 µC 92 = -79 µC g315 μC a = 32 cm b = 74 cm a 92 Part (a) How much potential energy, in joules, is stored in this configuration of charges? U= sin() cos() tan() 7 HOME E AL 4 5 *1| 2 cotan() asin() acos() atan() acotan() sinh() cosh() tanh() cotanh() + - END ODegrees O Radians vol BACKSPACE DEL CLEAR Part (b) Now assume that g1 and g2 are fixed in space at the locations indicated, and q3 is brought into it's position from infinity. What is the change in potential energy of the system, in joules, during this process?