a) Write the phasoreal form of the harmoink Maxwell's equations in time, in differential form, in cartesian coordinates, in a non-conductive and free space-free medium with no volumetric electric charge density. b) In Cartesian coordinates, u: the name of the independent variable and t: accept an electric/magnetic field vector with a frequency of 100 Mhz given to you according to your school number in the table to show the time. Write H in both the phasor and time domain. (Take the relative permittivity and dielectric constant as desired.) E(x,t) = 2.sin(wt-bx) Vector direction az
a) Write the phasoreal form of the harmoink Maxwell's equations in time, in differential form, in cartesian coordinates, in a non-conductive and free space-free medium with no volumetric electric charge density. b) In Cartesian coordinates, u: the name of the independent variable and t: accept an electric/magnetic field vector with a frequency of 100 Mhz given to you according to your school number in the table to show the time. Write H in both the phasor and time domain. (Take the relative permittivity and dielectric constant as desired.) E(x,t) = 2.sin(wt-bx) Vector direction az
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Transcribed Image Text:a) Write the phasoreal form of the harmoink Maxwell's equations in time, in differential form, in
cartesian coordinates, in a non-conductive and free space-free medium with no volumetric electric
charge density.
b) In Cartesian coordinates, u: the name of the independent variable and t: accept an
electric/magnetic field vector with a frequency of 100 Mhz given to you according to your school
number in the table to show the time. Write H in both the phasor and time domain. (Take the
relative permittivity and dielectric constant as desired.)
E(x,t) = 2.sin(wt-bx)
Vector direction az
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