The Maxwell equation derived from Ampere’s Law in Electricity is a. contour integral E with rightwards arrow on top. stack d s with rightwards arrow on top space equals space minus fraction numerator d capital phi subscript m over denominator d t end fraction b. contour integral B with rightwards arrow on top. stack d s with rightwards arrow on top space equals space mu subscript 0 I plus epsilon subscript 0 mu subscript 0 space fraction numerator d capital phi subscript E over denominator d t end fraction c. contour integral B with rightwards arrow on top. stack d A with rightwards arrow on top space equals space 0 d. contour integral E with rightwards arrow on top. stack d A with rightwards arrow on top space equals space Q subscript i n end subscript over epsilon subscript 0
The Maxwell equation derived from Ampere’s Law in Electricity is
a.
contour integral E with rightwards arrow on top. stack d s with rightwards arrow on top space equals space minus fraction numerator d capital phi subscript m over denominator d t end fraction
b.
contour integral B with rightwards arrow on top. stack d s with rightwards arrow on top space equals space mu subscript 0 I plus epsilon subscript 0 mu subscript 0 space fraction numerator d capital phi subscript E over denominator d t end fraction
c.
contour integral B with rightwards arrow on top. stack d A with rightwards arrow on top space equals space 0
d.
contour integral E with rightwards arrow on top. stack d A with rightwards arrow on top space equals space Q subscript i n end subscript over epsilon subscript 0
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