Problem Solving Two spherical inflated rubber balloons each have the same amount of charge spread uniformly on their surfaces. If the repelling force is 2.5 N and the distance between the balloon centers is 0.30 m, find how much charge is on each balloon. (. Two balloons are charged with an identical quantity and type of charge: -7.25nC. They are held apart at a separation distance of 61.7 cm Determine the magnitude of the electrical force of repulsion between

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Chapter1: Units, Trigonometry. And Vectors
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Two spherical inflated rubber balloons each have the same amount of charge spread uniformly on their
surfaces. If the repelling force is 2.5 N and the distance between the balloon centers is 0.30 m, find how
much charge is on each balloon. (.
Two balloons are charged with an identical quantity and type of charge: -7.25nC. They are held apart at
a separation distance of 61.7 cm. Determine the magnitude of the electrical force of repulsion between
them.
7.0 µC
Calculate the net charge at 7.0 µC located at the peak of an
equilateral triangle.
0.50 m
The figure on the right shows three point charges that lie along the x
axis. Determine the magnitude and direction of the net electric force
on qi. -
60°
2.0 µC
-4.0 µC
0.20 m
0.15 m
-4.0 µC
+3.0 uC
-7.0 µC
Transcribed Image Text:Problem Solving Two spherical inflated rubber balloons each have the same amount of charge spread uniformly on their surfaces. If the repelling force is 2.5 N and the distance between the balloon centers is 0.30 m, find how much charge is on each balloon. (. Two balloons are charged with an identical quantity and type of charge: -7.25nC. They are held apart at a separation distance of 61.7 cm. Determine the magnitude of the electrical force of repulsion between them. 7.0 µC Calculate the net charge at 7.0 µC located at the peak of an equilateral triangle. 0.50 m The figure on the right shows three point charges that lie along the x axis. Determine the magnitude and direction of the net electric force on qi. - 60° 2.0 µC -4.0 µC 0.20 m 0.15 m -4.0 µC +3.0 uC -7.0 µC
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