State and explain Ampere's circuital law.
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=) Ampere's circuital law ,in electromagnetism is analogous to Gauss' law in electrostatics. It states that the line integral of the magnetic field ( magnetic flux density ) B vector around any 'closed' path is equal to μo times the net current I threading through the area enclosed by the path . That is ,
ɸ B vector • d l vector = μo I ,
where , μo is the permeability of free space ( a constant ) . Ampere's circuital law is true for any assembly of currents and for any closed path .
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HOPE , IT HELPS ... ✌️
________________________
________________________
=) Ampere's circuital law ,in electromagnetism is analogous to Gauss' law in electrostatics. It states that the line integral of the magnetic field ( magnetic flux density ) B vector around any 'closed' path is equal to μo times the net current I threading through the area enclosed by the path . That is ,
ɸ B vector • d l vector = μo I ,
where , μo is the permeability of free space ( a constant ) . Ampere's circuital law is true for any assembly of currents and for any closed path .
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HOPE , IT HELPS ... ✌️
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