Please match the most relevant physical constant, equation, definition and/or in

Question

Please match the most relevant physical constant, equation, definition and/or interpretation between column A and B. (Symbols and definitions are based on lab 3 materials and lab manual.)

a)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

b)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

c)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

d)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

e)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

f)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

g)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

h)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

i)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

j)

      [ Choose ]            absence of free magnetic poles.            magnetic permeability of free space; 1.257×10^6 H/·m            Faraday’s law.            determination of the discrepancy between measured value and theoretical value.            capacitance of a parallel plate capacitor.            measured value deviates from an actual value.            Ampere’s law with Maxwell’s correction.            Gauss’s law for electric fields.            electric field of a parallel plate capacitor.            electric permittivity of free space; 8.854×10^12 F/m.      

Explanation / Answer

sir could you please repost, the picture is not shown and this seems to be a very interesting question

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