Part (a) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the positive * direction? Part (b) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the negative y direction? Part (c) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the posilve z direction?

Part (a) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the positive * direction? Part (b) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the negative y direction? Part (c) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the posilve z direction?

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Question

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Part (a) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the positive *
direction?
Part (b) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the negative y
direction?
Part (c) What is the flux through the loop, in newton squared meters per coulomb, when the loop is oriented such that its normal vector is in the posilve z direction?

A circular loop of radius R = 11.07 cm is centered at the origin where there is a constant electric field
E = (87.9 N/C)i + (183 N/C) j

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