ratio.
In 1827. a German physicist
(1787-1854) found out the relationshi
I, flowing in a metallic wire and the pot
its terminals. The potential differene
a given metallic wire in an elect
proportional to the current flowing
temperature remains the same. This
other words -
0.5
0.6
0.2 0.3 0.4
Current (A)
3
for a nichrome wire. A
e plot shows that as the
ugh a wire increases, the
ference across the wire
early - this is Ohm's law.
or
V/I constant
R
or
V
IR V
In Eq. (12.4), Ris a constant
at a given temperature and is
the property of a conductor to
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Answer:
1827. a German physicist
(1787-1854) found out the relationshi
I, flowing in a metallic wire and the pot
its terminals. The potential differene
a given metallic wire in an elect
proportional to the current flowing
temperature remains the same. This
other words -
0.5
0.6
0.2 0.3 0.4
Current (A)
3
for a nichrome wire. A
e plot shows that as the
ugh a wire increases, the
ference across the wire
early - this is Ohm's law.
or
V/I constant
R
or
V
IR V
In Eq. (12.4), Ris a constant
at a given temperature and is
the property of a conductor to
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