logging in or signing up ohms law s32219 Download Post to : URL : Related Presentations : Let's Connect Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Copy embed code: Embed: Flash iPad Dynamic Copy Does not support media & animations Automatically changes to Flash or non-Flash embed WordPress Embed Customize Embed URL: Copy Thumbnail: Copy The presentation is successfully added In Your Favorites. Views: 111 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (0) Added: March 05, 2013 This Presentation is Public Favorites: 0 Presentation Description ohms law Comments Posting comment... By: elimedalsi (1 week(s) ago) Thank you for your presentation Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript PowerPoint Presentation: Ohm's law magic trianglePowerPoint Presentation: Ohms law , defines the relationship between voltage, current and resistance. These basic electrical units apply to direct current, or alternating current. Ohm’s Law is the foundation of electronics and electricity. This formula is used extensively by electricians. Without a thorough understanding of “Ohm’s Law” an electrician can not design or troubleshoot even the simplest of electronic or electrical circuits. Ohm established in the late 1820’s that if a voltage was applied to a resistance then “current would flow and then power would be consumed”.PowerPoint Presentation: Voltage measured in volts , symbolized by the letters "E" or "V". Current measured in amps , symbolized by the letter "I". Resistance measured in ohms , symbolized by the letter "R".PowerPoint Presentation: If you know E and I, and wish to determine R, just eliminate R from the picture and see what's left:PowerPoint Presentation: If you know E and R, and wish to determine I, eliminate I and see what's left:PowerPoint Presentation: if you know I and R, and wish to determine E, eliminate E and see what's left:PowerPoint Presentation: Let's see how these equations might work to help us analyze simple circuits: If we know the values of any two of the three quantities (voltage, current, and resistance) in this circuit, we can use Ohm's Law to determine the third.PowerPoint Presentation: calculate the amount of current (I) in a circuit, given values of voltage (E) and resistance (R):PowerPoint Presentation: calculate the amount of resistance (R) in a circuit, given values of voltage (E) and current (I):PowerPoint Presentation: calculate the amount of voltage supplied by a battery, given values of current (I) and resistance (R):PowerPoint Presentation: Ohm’s Law power consumption through a resistance Some practical every day examples of this basic rule are: base board heaters, electric frying pans, toasters and electric light bulbs. The heater consumes power producing heat for warmth, the frying pan consumes power producing heat for general cooking, the toaster consumes power producing heat for cooking toast, and the electric light bulb consumes power producing heat and more important light. A further example is an electric hot water system. All are examples of Ohm’s Law.PowerPoint Presentation: The force or pressure behind electricityPowerPoint Presentation: milliamp or just mAPowerPoint Presentation: As a milliampere (milliamp or just mA) is 1/1000th of an ampere, we can convert mA to Amps by just dividing by 1000. Another way is to take the current in mA and move the decimal to the left three places to accomplish the division by 1000. Here's the scoop: 275 mA / 1000 = 0.275 Amps Note that the decimal in 275 is to the right of the 5, and it's written as 275.0 (with a 0 added to show where the decimal is). Moving the decimal to the left three places gets up to .275 Amps, but we usually hang a 0 in front of the decimal. To convert Amps to milliAmps , just multiply by 1000 or move the decimal to the right three places. Just the opposite of what we did here to convert the other way. You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.