Electric Current, Resistance and Power



"When I find myself in the company of scientists, I feel like a shabby curate who has strayed by mistake into a drawing room full of dukes"
W. H. Auden


Electric Current

eqn1
where e is the charge on the electron and vd is the drift velocity.
eqn2

physically, J represents charge movement at a particular place within a conductor, e.g. when A is large J is small, when A is small J is large.
The general relationship between I and J is
eqn3
The current is the flux of J through a surface.

exclamation Important:  The current, I, is a scalar quantity, whereas J is a vector.  I has a "sense" in that we draw arrows to represent its "direction", but does not obey the rules of vector algebra.
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Resistance

eqn4

where ρ is the resistivity of the conductor - characteristic of the conductor.  The conductivity of a conducting material is defined by, σ = 1/ρ.
For a uniform conductor, length l, cross section A, we have E = V/l and J = i/A, so that

eqn5

The resistance of the conductor R, is defined by,
eqn6

Resistance is measured in ohms (Ω), then resistivity has units ohm.metre and conductivity (ohm.metre)-1
  • exclamation Important: The relationship V = IR is NOT Ohm's Law !
OhmOhm's Law:
"If the ratio of voltage across a conductor to the current through it is constant for all voltages then that conductor obeys Ohm's Law"

Ohm's law holds for metallic conductors, but not for devices such as transistors, diodes etc.  The relationship V = IR can always be used to determine the resistance at some particular I and V for any device.
elec current eqn7

so that the rate at which energy is transferred (power), P, is given by,
elec current eqn8

In terms of units we can state that  Amps x Volts = Watts.
  • The form of the energy "released" depends on the electrical component placed between A and B, for example,
    • Motor - mechanical energy (work) released 
    • Battery - chemical energy stored in the battery
    • Resistance - thermal energy (heat) released
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Electro-motive Force - "emf"


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Internal Resistance

fig3



Q: Does light have mass?
A: Of course not. It's not even Catholic!!!


 

Dr. C. L. Davis
Physics Department
University of Louisville
email: c.l.davis@louisville.edu