1 Chapter 27 Current and Resistance. 2 Electric Current Electric current is the rate of flow of charge through some region of space The SI unit of current.

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Presentation transcript:

1 Chapter 27 Current and Resistance

2 Electric Current Electric current is the rate of flow of charge through some region of space The SI unit of current is the ampere (A) 1 A = 1 C / s The symbol for electric current is I

3 Average Electric Current Assume charges are moving perpendicular to a surface of area A

4 Instantaneous Electric Current If the rate at which the charge flows varies with time, the instantaneous current, I, can be found

5 An electric current is given by the expression I(t) = 85 sin(120  t), where I is in amperes and t is in seconds. What is the total charge carried by the current from t = 0 to t = 1/240 s? [0.225 C] Problem #4

6 Direction of Current The charges passing through the area could be positive or negative or both It is conventional to assign to the current the same direction as the flow of positive charges The direction of current flow is opposite the direction of the flow of electrons It is common to refer to any moving charge as a charge carrier

7 Charge Carrier Motion in a Conductor The zigzag black line represents the motion of a charge carrier in a conductor The net drift speed is small The sharp changes in direction are due to collisions The net motion of electrons is opposite the direction of the electric field

8 Motion of Charge Carriers, cont. In spite of all the collisions, the charge carriers slowly move along the conductor with a drift velocity, v d Changes in the electric field that drives the free electrons travel through the conductor with a speed near that of light This is why the effect of flipping a switch is effectively instantaneous

9 Motion of Charge Carriers, final Electrons do not have to travel from the light switch to the light bulb in order for the light to operate The electrons are already in the light filament They respond to the electric field set up by the battery The battery does not supply the electrons, it only establishes the electric field

10 Conductivity A current density J and an electric field E are established in a conductor whenever a potential difference is maintained across the conductor J = σ E The constant of proportionality, σ, is called the conductivity of the conductor

11 Ohm’s Law Ohm’s law states that for many materials, the ratio of the current density to the electric field is a constant σ that is independent of the electric field producing the current

12 Resistance

13 Resistance, cont. SI units of resistance are ohms (Ω) 1 Ω = 1 V / A What causes resistance?

14 Resistivity The inverse of the conductivity is the resistivity: ρ = 1 / σ Resistivity has SI units of ohm-meters (Ω. m) Resistance is also related to resistivity:

15 The rod in the figure is made of two materials. Each conductor has a square cross section 2.00 mm on a side. The first material has a resistivity of 2.50E-3 .m, and is 25 cm long while the second material has a resisitivity of 6.00E-3 .m, and is 40 cm long. What is the resistance between the ends of the rod? [756  ] Problem #6

16 Resistivity Values

17 Resistance and Resistivity, Summary Every ohmic material has a characteristic resistivity that depends on the properties of the material and on temperature The resistance of a material depends on its geometry and its resistivity An ideal conductor would have zero resistivity An ideal insulator would have infinite resistivity

18 Resistors Most circuits use elements called resistors Resistors are used to control the current level in parts of the circuit Resistors can be composite or wire- wound

19 Resistor Values

20 Ohmic Material, Graph

21 Ohmic Material, Graph An ohmic device The resistance is constant over a wide range of voltages The relationship between current and voltage is linear The slope is related to the resistance

22 Nonohmic Material, Graph

23 Nonohmic Material, Graph Nonohmic materials are those whose resistance changes with voltage or current The current-voltage relationship is nonlinear A diode is a common example of a nonohmic device

24 Resistance and Temperature Over a limited temperature range, the resistivity of a conductor varies approximately linearly with the temperature ρ o is the resistivity at some reference temperature T o T o is usually taken to be 20° C α is the temperature coefficient of resistivity SI units of α are o C -1

25 Temperature Variation of Resistance Since the resistance of a conductor with uniform cross sectional area is proportional to the resistivity, you can find the effect of temperature on resistance R = R o [1 + α(T - T o )]

26 Resistivity and Temperature, Graphical View For metals, the resistivity is nearly proportional to the temperature A nonlinear region always exists at very low temperatures The resistivity usually reaches some finite value as the temperature approaches absolute zero

27 Semiconductors Semiconductors are materials that exhibit a decrease in resistivity with an increase in temperature α is negative There is an increase in the density of charge carriers at higher temperatures

28 Superconductors A class of materials and compounds whose resistances fall to virtually zero below a certain temperature, T C T C is called the critical temperature The graph is the same as a normal metal above T C, but suddenly drops to zero at T C

29 Superconductors, cont The value of T C is sensitive to: chemical composition pressure molecular structure Once a current is set up in a superconductor, it persists without any applied voltage Since R = 0

30 Superconductor Application An important application of superconductors is a superconducting magnet The magnitude of the magnetic field is about 10 times greater than a normal electromagnet.

31 Photo courtesy NASA Superconductor Application

32 Electrical Power Assume a circuit as shown As a charge moves from a to b, the electric potential energy of the system increases by Q  V The chemical energy in the battery must decrease by this same amount

33 Electrical Power, 2 As the charge moves through the resistor (c to d), the system loses this electric potential energy during collisions of the electrons with the atoms of the resistor This energy is transformed into internal energy in the resistor Corresponds to increased vibrational motion of the atoms in the resistor

34 Electric Power, 3 The rate at which the system loses potential energy as the charge passes through the resistor is equal to the rate at which the system gains internal energy in the resistor The power is the rate at which the energy is delivered to the resistor

35 Electric Power, final The power is given by the equation: Applying Ohm’s Law, alternative expressions can be found: Units: I is in A, R is in Ω, V is in V, and is in W

36 Electric Power Transmission Real power lines have resistance Power companies transmit electricity at high voltages and low currents to minimize power losses