3. Electric Fields and Forces Two identical positive point charges, Q, each with charge + 6.00 µC are placed as shown on the y-axis. Refer to the diagram for more details. a. Calculate the total electric field at point P on the diagram. b. Using the result from part a., find the electric force on a new charge q =+2.00 µC, if it is brought in and placed at point P. c. If this + 2.00 uC charged object has a mass of 0.00350 kg, find the acceleration of the charge. (ignore gravitational effects here) у ахis 0.30 m :0.15 m > x axis 0.40 m
3. Electric Fields and Forces Two identical positive point charges, Q, each with charge + 6.00 µC are placed as shown on the y-axis. Refer to the diagram for more details. a. Calculate the total electric field at point P on the diagram. b. Using the result from part a., find the electric force on a new charge q =+2.00 µC, if it is brought in and placed at point P. c. If this + 2.00 uC charged object has a mass of 0.00350 kg, find the acceleration of the charge. (ignore gravitational effects here) у ахis 0.30 m :0.15 m > x axis 0.40 m
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Transcribed Image Text:3. Electric Fields and Forces
Two identical positive point charges, Q, each with charge + 6.00 µC are placed as shown on the y-axis.
Refer to the diagram for more details.
a. Calculate the total electric field at point P on the diagram.
b. Using the result from part a., find the electric force on a new charge q = +2.00 µC,
if it is brought in and placed at point P.
c. If this + 2.00 µC charged object has a mass of 0.00350 kg, find the acceleration of the charge.
(ignore gravitational effects here)
у ахis
0.30 m
10,15 m
х ахis
0.40 m
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