Observation of two point charges revealed the following data. For referencing the position of the point charges in vacuum, an empty region which will be called point zero will the origin of the angle which will expressed in radians. Values: Point charge A Charge = +133 μC Distance from point zero = 376 cm Angular position = π rad Point charge B Charge = –293 μC Distance from point zero = 217 cm Angular position = 0.20943951023932 rad a) Magnitude of electric field due to point charge A at point zero b) Magnitude of electric field due to point charge B at point zero c) Magnitude of electric field due to point charge A and point charge B at point zero[1] d) Direction of the net electric field in proximity with point zero e) Acceleration of a proton if placed at point zero[2] Notes: [1] direction of the vector

Observation of two point charges revealed the following data. For referencing the position of the point charges in vacuum, an empty region which will be called point zero will the origin of the angle which will expressed in radians. Values: Point charge A Charge = +133 μC Distance from point zero = 376 cm Angular position = π rad Point charge B Charge = –293 μC Distance from point zero = 217 cm Angular position = 0.20943951023932 rad a) Magnitude of electric field due to point charge A at point zero b) Magnitude of electric field due to point charge B at point zero c) Magnitude of electric field due to point charge A and point charge B at point zero[1] d) Direction of the net electric field in proximity with point zero e) Acceleration of a proton if placed at point zero[2] Notes: [1] direction of the vector

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Question

Case:

Values:

Point charge A

Charge = +133 μC

Distance from point zero = 376 cm

Angular position = π rad

Point charge B

Charge = –293 μC

Distance from point zero = 217 cm

Angular position = 0.20943951023932 rad

a) Magnitude of electric field due to point charge A at point zero

b) Magnitude of electric field due to point charge B at point zero

c) Magnitude of electric field due to point charge A and point charge B at point zero[1]

d) Direction of the net electric field in proximity with point zero

e) Acceleration of a proton if placed at point zero[2]

Notes: [1] direction of the vector components of the electric field based on standard test charge polarity

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