Two small insulating spheres are attached to silk threads and aligned vertically as shown in the figure. These spheres have equal masses of 17.14g, and carry charges q₁ =4.7μC and 92= -4.7μC. The spheres are brought into the positions shown in the figure, with a vertical separation of 15cm between them. Determine the magnitude of the tension in the lower thread (in N). Note that you cannot neglect gravity. 9.8m as the magnitude of the acceleration due to gravity.) (Use g = A, 91 TO 15 cm ↓ 92 B
Two small insulating spheres are attached to silk threads and aligned vertically as shown in the figure. These spheres have equal masses of 17.14g, and carry charges q₁ =4.7μC and 92= -4.7μC. The spheres are brought into the positions shown in the figure, with a vertical separation of 15cm between them. Determine the magnitude of the tension in the lower thread (in N). Note that you cannot neglect gravity. 9.8m as the magnitude of the acceleration due to gravity.) (Use g = A, 91 TO 15 cm ↓ 92 B
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Chapter1: Units, Trigonometry. And Vectors
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Could you look for correct answer and then show all work Two small insulating spheres are attached to silk threads and aligned vertically as shown in the figure. These spheres have equal masses of 17.14g, and carry
charges 91 =4.7C and q2 = -4.7 C. The spheres are brought into the
positions shown in the figure, with a vertical separation of 15cm between them. Determine the magnitude of the tension in the lower thread (in N).
Note that you cannot neglect gravity.
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Correct Answer
Two small insulating spheres are attached to silk threads and aligned vertically as
shown in the figure. These spheres have equal masses of 17.14g, and carry
charges q₁ =4.7μC and 92 = -4.7μC. The spheres are brought into the
positions shown in the figure, with a vertical separation of 15cm between
them. Determine the magnitude of the tension in the lower thread (in N).
Note that you cannot neglect gravity.
(Use ga
0.8m as the magnitude of the acceleration due to gravity.)
A.
91
↑
15 cm
↓
92
B
8.836
8.668 margin of error +/- 1%
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