In the circuit in Figure 19.77 a mechanical battery keeps a steady-state current running in a wire that has rather low electron
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(C) The electric field is zero at all locations inside the metal wire.
(D) At location 3 the electric field points to the left.
(E) The magnitude of the electric field inside the wire is the same at all locations inside the wire.
(F) Mobile electrons inside the wire push each other through the wire.
(G) The nonzero electric field inside the wire is created by the moving electrons in the wire.
(H) At every location inside the wire the direction of the electric field is parallel to the wire.
(I) The nonzero electric field inside the wire is created by excess charges on the surface of the wire and in and on the
mechanical battery.
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