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Electricity and Electronics Technology Education Dept. Bellwood-Antis Middle School Mr. Mackereth WHAT IS ELECTRICITY? • ELECTRICITY is the FLOW of ELECTRONS through a current carrying CONDUCTOR or WIRE. • ELECTRICITY CAN BE MEASURED AS….. • AMPERAGE (AMPS)- The electron’s RATE OF FLOW • VOLTAGE (VOLTS)- The PRESSURE of the electrons • POWER (WATTS)-The measure of POWER OUTPUT • RESISTANCE (OHMS)- The friction in the electric wire while electricity is trying to pass through. COMMOM ELECTRICAL TERMS: • POTENTIAL ENERGY- Energy in position, or stored energy. At rest, ready to release energy • KINETIC ENERGY- Energy in motion, or energy being consumed or used to do work. • MATTER- Object(s) that occupy space (atom) • MOLECULE- the smallest part of a compound. • ATOM- The individual elements that make up compounds in our world. ALL MOLECULES ARE MADE FROM INDIVIDUAL ATOMS! WHAT ARE SOME OF THE DIFFERENT WAYS OUR SOCIETY USES ELECTRICITY? • HOUSEHOLD USES • PUBLIC LIGHTING • MANUFACTURING • SAFETY & SECURITY • COMMUNICATION • PROFESSIONAL USES • RECREATION • TEMPERATURE CONTROLS • HEALTH & MEDICAL • RESEARCH / LABORATORY COMMOM ELECTRICAL TERMS: • PROTONS- A positively charged particle in an atom • ELECTRONS- Negatively charged particle in an atom • DIRECT CURRENT (DC)- A continuous electrical energy, usually from transformers and batteries • DC electric power ALWAYS flows from positive to negative • ALTERNATING CURRENT (AC)- Electricity in a wave form that pulses from + to – 60 times a second. • Regular household/business electric power is AC • AC electricity pulses back & forth b/w positive & negative COMMOM ELECTRICAL TERMS: • CONDUCTOR- An object that WILL allow electric current to flow through itself. (PLASTIC, RUBBER, PVC) • INSULATOR - An object that WILL NOT allow electric current to flow through itself. (WATER & METALS) • ELECTRICITY QUIZ #1 IS TOMORROW! • INCLUDES EVERYTHING FROM PAGE 1 OF NOTES. ALSO, KNOW SOCIETY’S USES OF ELECTRICITY! • BE ABLE TO DESCRIBE DIFFERENCES BETWEEN ELECTRICAL TERMS USING COMPLETE SENTENCES. TYPES OF CIRCUITS • OPEN CIRCUIT- An electric pathway that is not connected, or has a break (short) in the path. • ELECTRICITY WON’T FLOW IN AN OPEN CIRCUIT • A light switch in the OFF position is an OPEN circuit • CLOSED CIRCUIT- An COMPLETE electrical pathway • ELECTRICITY WILL FLOW IN A CLOSED CIRCUIT • A light switch in the ON position is a CLOSED circuit TYPES OF CIRCUITS • SERIES CIRCUIT- A path with only ONE “HOT” WIRE. • Devices in a series circuit are connected one after the other. Old Christmas lights are wired IN SERIES. • PARALLEL CIRCUIT- A path containing TWO WIRES (one HOT & one NEUTRAL wire.) Each device is connected to BOTH WIRES. Homes are IN PARALLEL • GROUNDED CIRCUIT- a safe circuit preventing shock • Make sure you can identify the 18 different electrical symbols on your FLASH CARDS. ELECTRICITY QUIZ #2 • INCLUDES EVERYTHING FROM PAGES 1 & 2 OF YOUR NOTES. ALSO KNOW THE FIVE DIFFERENT CIRCUITS! • BE ABLE TO DEFINE ALL THE TERMS & BE ABLE TO IDENTIFY ALL 18 SYMBOLS • THE QUIZ IS TOMORROW! CALCULATING ELECTRICAL VALUES • Scientists discovered in the 19th century that electricity follows the laws of physics & can be calculated using mathematical equations. • KNOW THE FORMULAS BELOW: • WATTS = VOLTS x AMPS (W = V x A) • VOLTS = AMPS x RESISTANCE (V = A x R) • If you know or are given any two of the four values, YOU CAN CALCULATE THE OTHERS! PRACTICE PROBLEMS PROBLEM #1 • • • • • Volts = 120 Amps = 3 FIND WATTS & OHMS W=VxA W =120 X 3 W = 360 • V=A xR • 120 = 3 X R 3 3 • R = 40 PROBLEM #2 • • • • Volts = 120 Watts = 60 FIND AMPS & OHMS W=VxA 60 =120 X A 120 120 • A = 0.5 • V=A xR • 120 = 0.5 X R 0.5 0.5 • R = 240 PRACTICE PROBLEMS PROBLEM #3 • Volts = 12 Ohms = 24 • FIND AMPS & WATTS • V=AxR • 12 = 24 X R 24 24 • A= 0.5 • W=VxA • w = 12 X 0.5 • W=6 PROBLEM #4 • Watts = 1200 Amps = 15 • FIND VOLTS & OHMS • W=VxA • 1200 = V X 15 15 15 • V= 80 • V=A xR • 80 = 15 X R 15 15 • R = 5.33333333 (5.3) HOMEWORK PROBLEM #1 • • • • • Volts = 240 Amps = 3 FIND WATTS & OHMS W=VxA W =240 X 3 W = 720 • V=A xR • 240 = 3 X R 3 3 • R = 80 PROBLEM #2 • • • • Volts = 120 Watts = 180 FIND AMPS & OHMS W=VxA 180=120 X A 120 120 • A = 1.5 • V=A xR • 120 = 1.5 X R 1.5 1.5 • R = 280 RESISTORS • RESISTORS are man-made components that are designed to limit the flow of electricity through small circuit boards and other electronic devices. • RESISTORS have a FOUR COLOR CODE that tells us the size (amount of resistance) in each resistor. • COLOR BAND #1- The 1st digit in the resistor size • COLOR BAND #2- The 2nd digit in the resistor size • COLOR BAND #3- # of zeros added (multiplier) • COLOR BAND #4- The TOLERANCE level allowed PRACTICE PROBLEM 1, a resistor with RED YELLOW BROWN SILVER 2 4 add 1 zeros 10% ANSWER: 240 Ohms with a tolerance of 10% • HIGH TOLERANCE • LOW TOLERANCE • # of Ohms X 100 + T% • # Ohms X 100 + T% • 240 Ohms X 110% • Ohms X 110% • Answer: 264 Ohms • Answer: 216 Ohms PRACTICE PROBLEM 2, a resistor with BROWN RED ORANGE GOLD 1 2 add 3 zeros 5% ANSWER: 12,000 Ohms with a tolerance of 5% • HIGH TOLERANCE • LOW TOLERANCE • # of Ohms X (100 + T %) • # Ohms X (100 – T %) • 12,000 Ohms X 105% • 12,000 Ohms X 95% • ANSWER: 12,600 Ohms • Answer: 11,400 Ohms HOMEWORK #1 is a resistor with …. RED RED ORANGE SILVER 2 2 add 3 zeros 10% ANSWER: 22,000 Ohms with a tolerance of 10% • HIGH TOLERANCE • LOW TOLERANCE • # Ohms X (100 + T %) • # Ohms X (100 - T %) • 22,000 Ohms X 110% • 22,000 Ohms X 90% • ANS: 24,200 Ohms • ANS: 19,800 Ohms HOMEWORK #2 is a resistor with …. BROWN RED BROWN SILVER 1 2 add 1 zero 10% ANSWER: 120 Ohms with a tolerance of 10% • HIGH TOLERANCE • LOW TOLERANCE • # Ohms X (100 + T %) • # Ohms X (100 - T %) • 120 Ohms X 110% • 120 Ohms X 90% • ANS: 132 Ohms • ANS: 108 Ohms
