Three identical charges with charge 3 microcoulomb are placed at each vertex of an equilateral triangle ABC as shown in the figure. If the side of the equilateral triangle is 0.01 m, find the resultant force on the charge at vertex A.

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Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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Three identical charges with charge 3 microcoulomb are placed at each vertex of an equilateral
triangle ABC as shown in the figure. If the side of the equilateraltriangle is 0.01 m, find the
resultant force on the charge at vertex A.
A proton is released from rest in a uniform horizontal electric field. It travels 3.25 m for 5
microseconds. Find the acceleration of the proton and the magnitude of the electric field.
What is the magnitude of two electrons separated by a distance of 0.10 nm?
Calculate the magnitude of the electric field 0.45 m from 7.85 nC point charge.
Four point charges (two with q = 2.50 microcoulomb and two q = -2.50 microcoulomb) are
situated at the corners of a square of side 1.00 m as shown. Find the resultant force that charge
at A will experience due to the charges at the other corners of the square.
Transcribed Image Text:Three identical charges with charge 3 microcoulomb are placed at each vertex of an equilateral triangle ABC as shown in the figure. If the side of the equilateraltriangle is 0.01 m, find the resultant force on the charge at vertex A. A proton is released from rest in a uniform horizontal electric field. It travels 3.25 m for 5 microseconds. Find the acceleration of the proton and the magnitude of the electric field. What is the magnitude of two electrons separated by a distance of 0.10 nm? Calculate the magnitude of the electric field 0.45 m from 7.85 nC point charge. Four point charges (two with q = 2.50 microcoulomb and two q = -2.50 microcoulomb) are situated at the corners of a square of side 1.00 m as shown. Find the resultant force that charge at A will experience due to the charges at the other corners of the square.
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