1. State Maxwell’s equation for the curl of the magnetic and the electric field in free...

Which equations comprise Maxwell’s equations? a) Gauss’ law for electric field, Coulomb’s law, Faraday’s law, and...

Which equations comprise Maxwell’s equations? a) Gauss’ law for electric field, Coulomb’s law, Faraday’s law, and Ampere’s law b) Coulomb’s law, Ohm’s law, Gauss law for electric field, and Ampere’s law    c)Coulomb’s law, Gauss’ law for electric field, Faradays’ law, and Lenz’s law d) Gauss’ law for electric field, Gauss’ law for magnetic field, Faraday’s law, and Ampere’s law e) Gauss’ law for electric field, Gauss’ law for magnetic field, Faraday’s law, and Lenz’s law   

In free space, the electric field intensity ? = 20 cos (ωt-50x) ?̂ V/m. ?̂ is...

In free space, the electric field intensity ? = 20 cos (ωt-50x) ?̂ V/m. ?̂ is the unit vector along y-axis. Calculate (i) Displacement current density (?? ?? ). (ii) Magnetic Field intensity (?) (iii) Angular frequency (ω). Assume ? 0 = 4? × 10( −7) and ? 0 = 8.854 × 10 (−12) ?/?

List all of the choices that directly describe one of Maxwell’s equations. Hint: A correct response...

List all of the choices that directly describe one of Maxwell’s equations. Hint: A correct response will pick EXACTLY four of these choices. Reminder: You need to provide some form of reasoning to receive credit for you answers. For example, you could do this by identifying what equations are described by your answer choices. A.) gives the electric force between two point charges based on their charges and distance apart B.) voltage equals current times resistance C.) gives the relation...

1. Magnetic fields come from electric current or any electric field. electric current or changing magnetic...

1. Magnetic fields come from electric current or any electric field. electric current or changing magnetic fields. changing electric fields only. electric current only. 2. A charged object is able to attract only neutral particles neutral objects but not neutral particles only charged objects neutral objects and neutral particles

Field Sources: Consider the following electric field (where ? and ? are constants): ?(?, ?) =...

Field Sources: Consider the following electric field (where ? and ? are constants): ?(?, ?) = ? cos[? (? − ??)] ̂? (a) What is the charge density ?(?, ?) associated with this E-field? By unit analysis, what must be the units of the parameters ? and ?? (b) Given this electric field, come up with the simplest possible magnetic field ?(?, ?) that satisfies Faraday’s law. (What is the required magnitude of the B-field?) (c) Show that the remaining...

In the equation F = ILB, 1. if the current and the magnetic field are parallel,...

In the equation F = ILB, 1. if the current and the magnetic field are parallel, F = 0 2. if the current and magnetic field are perpendicular, F = 0 3. if the current is zero, F is at a maximum 4. if the magnetic field is zero, F is at a maximum

please explain why there may be nonvanishing solution for electric and magnetic field in source-free regions?

please explain why there may be nonvanishing solution for electric and magnetic field in source-free regions?

At a certain instant in time, the electric field of an electromagnetic wave in free space...

At a certain instant in time, the electric field of an electromagnetic wave in free space points in the -z direction, and the magnetic field points in the +y direction. In what direction is this wave traveling? A) +x direction ___B) -x direction ___ C) +y direction ___D) -z direction ___E) +z direction ___ Please explain why you chose your answer

An electric field in free space isE=(5z3/0)ˆazV/m. Find the total chargecontained within a sphere of 3-m...

An electric field in free space isE=(5z3/0)ˆazV/m. Find the total chargecontained within a sphere of 3-m radius, centered at the origin An electric flux density is given byD=D0aρ, whereD0is a given constant.(a) What charge density generates this field? (b)For the specified field, what

The direction of the magnetic force on an electron moving through a magnetic field is the...

The direction of the magnetic force on an electron moving through a magnetic field is the same as the direction of the vector formed by taking the cross product of the velocity with the magnetic field (v x B).            True/ False The magnetic field is also referred to as the magnetic flux _____________ [one word]. Consider a particle moving through a magnetic field. If the magnetic field doubles and the velocity of the particle halves, the magnetic force will:...