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Fundamental Electrical Theory. Definitions Current (I): flow of electric charges per unit time or “flow rate”, measured in “amperes” or “amps” (A) Electromotive.

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Presentation on theme: "Fundamental Electrical Theory. Definitions Current (I): flow of electric charges per unit time or “flow rate”, measured in “amperes” or “amps” (A) Electromotive."— Presentation transcript:

1 Fundamental Electrical Theory

2 Definitions Current (I): flow of electric charges per unit time or “flow rate”, measured in “amperes” or “amps” (A) Electromotive Force (emf) (E): a potential difference or “electric pressure” which drives the flow of charges, measured in “volts” (V) Resistance (R): an electrical circuit’s opposition to current flow, measured in “ohms” (  ) Conductor: a material which offers little resistance to current flow, e.g. silver, copper, iron, etc… Insulator: a material which offers high resistance to current flow, e.g. wood, paper, plastic, etc...

3 Direct Current (DC) Current flow is unidirectional and of constant magnitude (Batteries) Ohm’s Law: current in a circuit is directly proportional to the applied voltage and inversely proportional to the circuit resistance E = I R P = I E = I 2 R (W)

4 Basic Circuit Properties Electrons flow (-) to (+) Conventional Current flows (+) to (-) Kirchoff’s Law of Voltages (KVL) –Sum of all voltages in a complete circuit is zero –Choose arbitrary loop of a circuit (CW or CCW) –If encounters (+) terminal 1 st then (-), then its a voltage drop. (usually a resistor) –If encounters (-) terminal 1 st then (+) which is a voltage increase. (usually a battery) Sum of current into and out of a node is always zero and constant (KCL)

5 Basic Circuit Properties Series –Current is constant (constant flow rate of e - ) –Voltage drops across each resistor (pressure) –R = R 1 + R 2 + R 3 + etc Parallel –Voltage drop constant –I in = I 1 + I 2 + I 3 +etc –1/R = 1/ R 1 + 1/R 2 + 1/R 3 + etc

6 Example Problem #1 Determine V 1, V 2, V 3, V 4, and I. V1V1 V2V2 V4V4 V3V3 I 90V + - 20  55 10  Meters, volt-meter and amp-meter

7 Example Problem #2 Determine I 1, I 2, I 3, I 4 and total circuit resistance. I1I1 75V + - I4I4 I3I3 I2I2 20  30  20 

8 Batteries Dry-cell batteries: cylindrical zinc container, carbon electrode, and ammonium chloride/water electrolyte Wet-cell batteries: lead-acid battery is the most common, can be charged by forcibly changing the direction of electrical current

9 Voltage Kills It is the volume of the current that flows that kills. 0.001 amps = 1 milliamp Tingles 0.01 amps = 10 milliamps Severe shock, uncontrolled muscle spasms 0.1 amps = 100 milliamps DEATH! If the current passes through vital organs such as the heart.

10 FINSIHED FOR THE TIME BEING

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