50% Part (a) If Q1 + Q2 = 4 uC, what should the value of Q1 be, in microcoulombs, in order to maximize the tension in th

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50 Part A If Q1 Q2 4 Uc What Should The Value Of Q1 Be In Microcoulombs In Order To Maximize The Tension In Th 1 (100.93 KiB) Viewed 39 times

50 Part A If Q1 Q2 4 Uc What Should The Value Of Q1 Be In Microcoulombs In Order To Maximize The Tension In Th 2 (100.93 KiB) Viewed 39 times

50 Part A If Q1 Q2 4 Uc What Should The Value Of Q1 Be In Microcoulombs In Order To Maximize The Tension In Th 3 (34.63 KiB) Viewed 39 times

50% Part (a) If Q1 + Q2 = 4 uC, what should the value of Q1 be, in microcoulombs, in order to maximize the tension in the string? Q1 = 1 TC 7 8 9 HOME E T4 5 6 4 sin cos tan() cotan asin() acos atan acotan sinh cosh tanh) cotanh Degrees O Radians ( 2 3 + 0 END NO BACKSPACE CLEAR Submit Feedback I give up! Hints: Feedback: 50% Part (b) What is the maximum tension, in newtons, in the string?

50% Part (a) If Q1 + Q2 = 4 uC, what should the value of Q1 be, in microcoulombs, in order to maximize the tension in the string? Q1 = 1 TC 7 8 9 HOME E T4 5 6 4 sin cos tan() cotan asin() acos atan acotan sinh cosh tanh) cotanh Degrees O Radians ( 2 3 + 0 END NO BACKSPACE CLEAR Submit Feedback I give up! Hints: Feedback: 50% Part (b) What is the maximum tension, in newtons, in the string?

(18%) Problem 4: Two conducting spheres are connected at their centers by a 1.0 m nonconducting string. The radii of the spheres are 0.25 m and 0.33 m, respectively. Qand Q2 are added to the spheres, Randomized Variables R1 = 0.25 m R2 = 0.33 m