heat dipoles electrical current positive to negative no current extra photons charging by induction 1.5 volts Ben Franklin amperes repel electrons moving direction series circuit independently positive invisible resistance voltage photons no open circuit parallel circuit electromagnetic force stop working simple circuit magnetic field lines charging by conduction battery attract negative line up one James Clerk Maxwell Conventional current amps and voltage longer of the parallel line use up energy stronger number of electrons negative to positive heat dipoles electrical current positive to negative no current extra photons charging by induction 1.5 volts Ben Franklin amperes repel electrons moving direction series circuit independently positive invisible resistance voltage photons no open circuit parallel circuit electromagnetic force stop working simple circuit magnetic field lines charging by conduction battery attract negative line up one James Clerk Maxwell Conventional current amps and voltage longer of the parallel line use up energy stronger number of electrons negative to positive
(Print)
heat
dipoles
electrical current
positive to negative
no current
extra photons
charging by induction
1.5 volts
Ben Franklin
amperes
repel
electrons moving
direction
series circuit
independently
positive
invisible
resistance
voltage
photons
no
open circuit
parallel circuit
electromagnetic force
stop working
simple circuit
magnetic field lines
charging by conduction
battery
attract
negative
line up
one
James Clerk Maxwell
Conventional current
amps and voltage
longer of the parallel line
use up energy
stronger
number of electrons
negative to positive
