Talk:Electric Motors And Generators

"Generators are based on the fact that when a wire, or a coil, is moved into and out of a magnetic field then a voltage will be generated between the ends of that wire or coil. The magnitude of that voltage is proportional (within a limit) to the strength of the magnetic field, and also the number of turns of the coil, while the direction of that voltage depends on the polarity of the magnetic field (North pole or South pole), and which leads of the voltmeter are connected to which end of the wire or coil".....Italic textMy question is if a bulb is connected across these terminals will it glow

Electrical Engineering
I've created a category for electrical engineering books. use to add this book to that category, if desired. If this book doesnt start to progress eventually (and i know writing a book takes time) I will probably start a motion to merge this book with a more general book on "Electromechanical Devices" that i am planning to start writing in the weeks ahead. --Whiteknight 23:12, 16 October 2005 (UTC)

Hmmm,,, so, what's happened here? I'm new to wiki contribution/editing. Tranzz4md (discuss • contribs) 17:34, 1 January 2022 (UTC)

Stub
This book is a stub. It hasnt been edited since June for any reason other then to add proposed sections to the current "table of contents" and a spam revert. The two pages that this book does have are short, and uninformative. I will probably put this book up for deletion soon. --Whiteknight T C E 19:02, 19 October 2005 (UTC)
 * Since this is up for deletion I have taken it upon myself to begin editing this book and replace some of the original content which was very unstructured and not very informative. I have also added a section in which some info on vector algebra could be placed, I propose something which covers the following: a reasonable discussion of scalar fields, vector fields, vector algebra and vector calculus covering the following concepts
 * Scalar fields versus vector fields, how vectors have both magnitude and direction
 * Product of a scalar and a vector
 * Magnitudes and unit vectors
 * Vector addition and subtractionee a
 * The scalar (dot) product of vectors
 * The vector (cross) product of vectors
 * Vector integration including line and surface integration
 * The cross-product is particularly crucial as it greatly aids in determining the direction of the forces on a moving charge in a magnetic field.--crobar


 * Great! For what it is worth, it isn't up for deletion and if you disagree with merging this page somewhere else you can take down the merge sign (at both pages if applicable). Thenub314 (talk) 14:32, 15 July 2010 (UTC)