logging in or signing up Current Electricity & Ohms Law wsautter Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 92 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: December 15, 2011 This Presentation is Public Favorites: 0 Presentation Description Discusses Ohm's Law and current electricity and related to energy transfer in circuits. **More good stuff available at: www.wsautter.com and http://www.youtube.com/results?search_query=wnsautter &aq=f Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: Current Electricity & Ohm's LawPowerPoint Presentation: The next slide is a quick promo for my books after which the presentation will begin Thanks for your patience! Walt S. Wsautter@optonline.net More stuff at: www.wsautter.comPowerPoint Presentation: Books available at: www.wsautter.com www.smashwords.com www.amazon.com www.bibliotastic.com www.goodreads.com Walt’s Books for Free!PowerPoint Presentation: A source voltage, that is, an electron pump usually a battery or power supply. [ ENERGY IN] Circuit Basics (2) A conductor to carry electrons from and to the voltage source (pump). The conductor is often a wire. [ENERGY TRANSFER] (3) A load or resistance. A point where energy is extracted form the circuit in the form of heat, light, motion, etc. [ENERGY OUT] All electrical circuits require three elements.PowerPoint Presentation: ELECTRON PUMP (SOURCE VOLTAGE) [ENERGY IN] LOAD (RESISTANCE) [ENERGY OUT] CONDUCTOR ELECTRONS OUT OF SOURCE ELECTRONS OUT OF LOAD ELECTRONS BACK TO SOURCE ELECTRONS INTO LOAD HIGHER ENERGY ELECTRONS LOWER ENERGY ELECTRONS THE MOST BASIC ELECTRICAL CIRCUIT CONDUCTORPowerPoint Presentation: Voltage Source (Potential Rise) Low Energy current High Energy current Resistance (Potential Drop) Low Energy current High Energy current Potential Changes of Current in a CircuitPowerPoint Presentation: volts Battery current Potential Rise Across a Power Source Electrons have Less Energy Electrons have More Energy Electrons get An energy boost currentPowerPoint Presentation: volts Resistor current Potential Drop Across a Resistor Electrons have More Energy Electrons have Less Energy Energy is lost In the resistorPowerPoint Presentation: MEASUREABLE QUANTITIES THAT CAN BE OBTAINED FROM AN ELECTRICAL CIRCUIT (1) VOLTAGE RISE – MEASURES THE ENERGY GIVEN TO ELECTRONS AS THEY LEAVE A VOLTAGE SOURCE. IT IS MEASURED IN VOLTS (+) (2) VOLTAGE DROP – MEASURES THE ENERGY LOST BY TO ELECTRONS WHEN THEY LEAVE A RESISTANCE. IT IS MEASURED IN VOLTS (-) (3) CURRENT – MEASURES THE FLOW RATE THROUGH A CONDUCTOR. IT IS MEASURED IN AMPERES (AMPS) (4)RESISTANCE – MEASURES THE OPPOSITION TO CURRENT FLOW THROUGH A CONDUCTOR OR RESISTOR IT IS MEASURED IN OHMS (ITS SYMBOL IS OMEGA )PowerPoint Presentation: 6.25 x 10 18 electrons 1 coulomb 1 coulomb 1 second 1 amp = 1 coul / sec 1 joule 1 coulomb of charge 1 volt = 1 joule / coul ELECTRICAL QUANTITIESPowerPoint Presentation: AMPS volts Ammeters measure current in amperes and are always wired in series in the circuit. Voltmeters measure potential in volts and are always wired in parallel in the circuit. Electrical MetersPowerPoint Presentation: An actual VoltmeterPowerPoint Presentation: An Actual AmmeterPowerPoint Presentation: Electrical Symbols wiring battery voltmeter ammeter resistance capacitor + - A V junction terminal AC generator Variable resistance Variable capacitorPowerPoint Presentation: Relationships Among Electrical Quantities in a Circuit Measure electrical quantities in an electrical Circuit are related to eachother by: OHM’S LAW OHM’S LAW says, if the source voltage remains constant, increasing the resistance in a circuit will cause a decrease in current flow in that circuit. In mathematical terms it tells us that current flow is inversely proportional to resistance. In equation form it says: Voltage (V) = Current (I) x Resistance (R) or V(in volts) = I (in amps) x R (in ohms)PowerPoint Presentation: V = I R Ohm's Law Potential In volts (joules / coul) Current In amperes (coul / second) Resistance In ohms (volts / amp) Drop across a resistance Current passing Through the resistorPowerPoint Presentation: V O L T A G E (volts) Current (I) in amps I v Voltage vs Current for a Constant Resistance The slope of the Line gives the resistance R = v /I or rearranged v = I x RPowerPoint Presentation: Voltage Sources and Internal Resistance All voltage sources contain internal resistance , that is resistance that is part of the voltage producing device itself which cannot be eliminated. The voltage that the device (battery for example) could produce if no internal resistance was present is called its EMF. EMF stands for electromotive force – the force that moves the electrons . The useable voltage which is available to the circuit after the internal resistance consumes its share of the EMF is called The terminal voltage.PowerPoint Presentation: Electromotive Force (EMF) and Terminal Voltage EMF Voltage rise Voltage drop EMF of Source Internal resistance + - Terminal voltage conventional current flowPowerPoint Presentation: terminal voltage = EMF (+) + Internal resistance loss (-) Since voltage rise across a source or Voltage drop across a resistance can be Calculated by Ohm’s Law V= IR And the above equation becomes V terminal = EMF – I x R internal Note that if R interna l is very small then a large Percentage of the EMF is available to the circuit. Also note that if I, the current is very large then a large percentage of the EMF is consumed within the battery itself which can cause overheating and failure. This is generally the result of a short circuit.PowerPoint Presentation: volts Battery current Internal Resistance and EMF Voltage rise Due to EMF Voltage drop Due to internal resistance current EMF R i +V -V Net Voltage Rise of cell (Terminal VoltagePowerPoint Presentation: THE END You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
Current Electricity & Ohms Law wsautter Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 92 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: December 15, 2011 This Presentation is Public Favorites: 0 Presentation Description Discusses Ohm's Law and current electricity and related to energy transfer in circuits. **More good stuff available at: www.wsautter.com and http://www.youtube.com/results?search_query=wnsautter &aq=f Comments Posting comment... Premium member Presentation Transcript PowerPoint Presentation: Current Electricity & Ohm's LawPowerPoint Presentation: The next slide is a quick promo for my books after which the presentation will begin Thanks for your patience! Walt S. Wsautter@optonline.net More stuff at: www.wsautter.comPowerPoint Presentation: Books available at: www.wsautter.com www.smashwords.com www.amazon.com www.bibliotastic.com www.goodreads.com Walt’s Books for Free!PowerPoint Presentation: A source voltage, that is, an electron pump usually a battery or power supply. [ ENERGY IN] Circuit Basics (2) A conductor to carry electrons from and to the voltage source (pump). The conductor is often a wire. [ENERGY TRANSFER] (3) A load or resistance. A point where energy is extracted form the circuit in the form of heat, light, motion, etc. [ENERGY OUT] All electrical circuits require three elements.PowerPoint Presentation: ELECTRON PUMP (SOURCE VOLTAGE) [ENERGY IN] LOAD (RESISTANCE) [ENERGY OUT] CONDUCTOR ELECTRONS OUT OF SOURCE ELECTRONS OUT OF LOAD ELECTRONS BACK TO SOURCE ELECTRONS INTO LOAD HIGHER ENERGY ELECTRONS LOWER ENERGY ELECTRONS THE MOST BASIC ELECTRICAL CIRCUIT CONDUCTORPowerPoint Presentation: Voltage Source (Potential Rise) Low Energy current High Energy current Resistance (Potential Drop) Low Energy current High Energy current Potential Changes of Current in a CircuitPowerPoint Presentation: volts Battery current Potential Rise Across a Power Source Electrons have Less Energy Electrons have More Energy Electrons get An energy boost currentPowerPoint Presentation: volts Resistor current Potential Drop Across a Resistor Electrons have More Energy Electrons have Less Energy Energy is lost In the resistorPowerPoint Presentation: MEASUREABLE QUANTITIES THAT CAN BE OBTAINED FROM AN ELECTRICAL CIRCUIT (1) VOLTAGE RISE – MEASURES THE ENERGY GIVEN TO ELECTRONS AS THEY LEAVE A VOLTAGE SOURCE. IT IS MEASURED IN VOLTS (+) (2) VOLTAGE DROP – MEASURES THE ENERGY LOST BY TO ELECTRONS WHEN THEY LEAVE A RESISTANCE. IT IS MEASURED IN VOLTS (-) (3) CURRENT – MEASURES THE FLOW RATE THROUGH A CONDUCTOR. IT IS MEASURED IN AMPERES (AMPS) (4)RESISTANCE – MEASURES THE OPPOSITION TO CURRENT FLOW THROUGH A CONDUCTOR OR RESISTOR IT IS MEASURED IN OHMS (ITS SYMBOL IS OMEGA )PowerPoint Presentation: 6.25 x 10 18 electrons 1 coulomb 1 coulomb 1 second 1 amp = 1 coul / sec 1 joule 1 coulomb of charge 1 volt = 1 joule / coul ELECTRICAL QUANTITIESPowerPoint Presentation: AMPS volts Ammeters measure current in amperes and are always wired in series in the circuit. Voltmeters measure potential in volts and are always wired in parallel in the circuit. Electrical MetersPowerPoint Presentation: An actual VoltmeterPowerPoint Presentation: An Actual AmmeterPowerPoint Presentation: Electrical Symbols wiring battery voltmeter ammeter resistance capacitor + - A V junction terminal AC generator Variable resistance Variable capacitorPowerPoint Presentation: Relationships Among Electrical Quantities in a Circuit Measure electrical quantities in an electrical Circuit are related to eachother by: OHM’S LAW OHM’S LAW says, if the source voltage remains constant, increasing the resistance in a circuit will cause a decrease in current flow in that circuit. In mathematical terms it tells us that current flow is inversely proportional to resistance. In equation form it says: Voltage (V) = Current (I) x Resistance (R) or V(in volts) = I (in amps) x R (in ohms)PowerPoint Presentation: V = I R Ohm's Law Potential In volts (joules / coul) Current In amperes (coul / second) Resistance In ohms (volts / amp) Drop across a resistance Current passing Through the resistorPowerPoint Presentation: V O L T A G E (volts) Current (I) in amps I v Voltage vs Current for a Constant Resistance The slope of the Line gives the resistance R = v /I or rearranged v = I x RPowerPoint Presentation: Voltage Sources and Internal Resistance All voltage sources contain internal resistance , that is resistance that is part of the voltage producing device itself which cannot be eliminated. The voltage that the device (battery for example) could produce if no internal resistance was present is called its EMF. EMF stands for electromotive force – the force that moves the electrons . The useable voltage which is available to the circuit after the internal resistance consumes its share of the EMF is called The terminal voltage.PowerPoint Presentation: Electromotive Force (EMF) and Terminal Voltage EMF Voltage rise Voltage drop EMF of Source Internal resistance + - Terminal voltage conventional current flowPowerPoint Presentation: terminal voltage = EMF (+) + Internal resistance loss (-) Since voltage rise across a source or Voltage drop across a resistance can be Calculated by Ohm’s Law V= IR And the above equation becomes V terminal = EMF – I x R internal Note that if R interna l is very small then a large Percentage of the EMF is available to the circuit. Also note that if I, the current is very large then a large percentage of the EMF is consumed within the battery itself which can cause overheating and failure. This is generally the result of a short circuit.PowerPoint Presentation: volts Battery current Internal Resistance and EMF Voltage rise Due to EMF Voltage drop Due to internal resistance current EMF R i +V -V Net Voltage Rise of cell (Terminal VoltagePowerPoint Presentation: THE END