(solve it by finding the infinitesimal area element by using gradient or the normal vector) Consider an electric field Ë given as Ē(2) = E9zk. with EO having the appropriate unites. Find the flux through the cone apex of the cone: (located at the origin) angle is n/3 and the boundary lies at z = 1
(solve it by finding the infinitesimal area element by using gradient or the normal vector) Consider an electric field Ë given as Ē(2) = E9zk. with EO having the appropriate unites. Find the flux through the cone apex of the cone: (located at the origin) angle is n/3 and the boundary lies at z = 1
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![(solve it by finding the infinitesimal area element by using gradient or the
normal vector)
Consider an electric field Ě given as
Ē(2) = E9zk.
with EO having the appropriate unites. Find the flux through the cone
apex of the cone: (located at the origin) angle is n/3 and the boundary lies at z = 1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fdb2c7c45-b843-4551-bbdd-ae02c7327e47%2Ff7570925-a65b-49f7-ba42-6b9f5d6f9d71%2Fvhaqjok_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(solve it by finding the infinitesimal area element by using gradient or the
normal vector)
Consider an electric field Ě given as
Ē(2) = E9zk.
with EO having the appropriate unites. Find the flux through the cone
apex of the cone: (located at the origin) angle is n/3 and the boundary lies at z = 1
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