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Current And Resistance

Current And Resistance. Chapter 17. Electric Current. Current exists whenever charges of like signs move 17.1. Current is the rate of flow of charge. The unit for current is the Ampere (A). 1 Ampere = 1 Coulomb/Second. Conventional (positive) current flow is used.

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Current And Resistance

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  1. Current And Resistance • Chapter 17

  2. Electric Current • Current exists whenever charges of like signs move 17.1

  3. Current is the rate of flow of charge

  4. The unit for current is the Ampere (A). 1 Ampere = 1 Coulomb/Second

  5. Conventional (positive) current flow is used. • Charge carriers may be positive or negative 75

  6. Drift Speed • The speed of the charge carriers is an average speed called the drift speed (nd). n is the number of charge carriers per unit volume 17.2

  7. Current Produces Heat • Internal collisions between charge carriers produce heat. 17.4A

  8. Current Flow Analogies • Water flow in a pipe • Marbles in a long pipe • Links in a bicycle chain 20-21

  9. Resistance • Resistance (R) is opposition to the flow of current • Measured in units called ohms • Symbol (W) • Occurs because of collisions between electrons

  10. Ohm’s Law

  11. Current And Voltage Measurements • Multimeters can measure voltage,current and resistance in an electrical circuit.

  12. It is very important to choose the correct range and to connect the multimeter leads properly.

  13. Ohmic and Non-Ohmic Resistance • Ohm’s Law • Ohmic resistance is constant over a wide range of voltages. • Non ohmic resistance varies with voltage • Semiconductor diodes • One way valves for electricity 17.5, 226, 175

  14. Ohmic Resistance

  15. Non-Ohmic Resistance

  16. Resistors • A resistor is a device which has a specific amount of resistance • Circuit diagram symbol

  17. Examples of Resistors

  18. Resistor Color Code

  19. Resistivity • Resistivity (r) is a constant of proportionality which affects the resistance of a specific material. • Units: (W.m) • Values are in Table 17.1 (Pg. 577)

  20. Resistance and Resistivity

  21. Applications Involving Resistance • The carbon microphone

  22. The carbon microphone • Sound waves cause a change in resistance. • Frequency response is very poor. (20 Hz to 4,000Hz) • The normal human hearing range is between 20 Hz and 20,000 Hz.

  23. Temperature Variation Of Resistance • Usually, the resistivity of a metal increases with an increase in temperature.

  24. Temperature Variation Of Resistance • Temperature coefficient of resistivity (a) • Values are in Table 17.1

  25. Superconductors • The resistance of some metals and compounds falls to virtually zero below the critical temperature. (Tc) • Values are in Table 17.2 (Pg. 584)

  26. Currents in a superconductor, could flow forever without an applied voltage.

  27. The Meissner Effect

  28. The goal is to produce high temperature superconductors • Mercury-oxide-based • The highest temperature so far is 150 K (-123 oC)

  29. What is the ultimate goal? Superconductivity at room temperature!

  30. Applications of Superconductors • Microwave devices • Superconducting power lines • Mag-Lev trains • Motors

  31. Cells and Batteries • A dry cell transforms chemical energy into electrical energy • Some of this energy becomes thermal energy 178, 179

  32. Resistive Circuits • A simple resistive circuit • Assume no loss of energy in the wires. • Joule heating occurs in the resistor. 17.11

  33. Electrical Power • Electrical power is measured in Watts (W)

  34. Electrical Energy • Electrical energy is measured in kilowatt hours (kWh) • Consumers Energy bill? 1 kWh = 3.60 x 106 J

  35. A Kilowatt-Hour Meter

  36. Electrical Activity In The Heart • Muscle action is initiated by electrical activity • Voltage pulses cause the heart to beat • These electrical waves travel through the body • Monitored by electrocardiographs • EKG (electrocardiogram) 177

  37. If the atrial and ventricular contractions become irregular, we have fibrillation. • Defibrillators can be used to restore the normal heart rhythm 17.13

  38. A Bad EKG

  39. Cardiac Pacemakers • Cardiac pacemakers may be implanted under the skin and attached with a wire to the right ventricle. • A lithium battery is used to charge a capacitor. It discharges 60 times per minute to stimulate the heart beat. If the heart is beating normally, the capacitor is not allowed to charge.

  40. Pacemaker Location

  41. An Actual Pacemaker

  42. Cardioverter Defibrillators • Implanted Cardioverter Defibrillators (ICDs) can monitor, record, process information, and send corrective signals to the heart. • The lithium batteries last 4 – 5 years. • Table 17.3 (Defibrillator Properties)

  43. Electrical Activity In The Brain • The brain produces electrical waves • Monitored by electroencephalographs • EEG

  44. An EEG

  45. Questions 1, 3 - 5, 7, 8, 10 - 12 Pg. 587

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