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hyper dimensional resonator electromagnet
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<blockquote data-quote="Einstein" data-source="post: 118350" data-attributes="member: 288"><p>Hi Steven</p><p></p><p>I do believe the published info for constructing the electromagnet is incorrect. I recall it being 21 AWG wire, 7 layers wound on a 7 inch soft iron core. It was also stated that the amount of wire to use was 200 feet. But there is a couple of ways to find out how much wire to use. The method I used was the picture method. There is a picture on the web of an electromagnet made by Steven Gibbs. I used this picture to take measurements off of to determine how much wire to use to make the electromagnet.</p><p></p><p><img src="http://www.fluxcap.com/electromagnet_watch.jpg" alt="" class="fr-fic fr-dii fr-draggable " style="" /> </p><p></p><p>I just downloaded this image to my hard drive and adjusted the size on my monitor screen so that the magnet core length was 7 inches. The winding diameter shows to be 2 inches. The actual winding length appears to measure around 6 inches. The tapers at each end appear to be some type of filler putty. So the actual winding on a Steven Gibbs magnet measures out to be 6 inches long by 2 inches wide. </p><p></p><p>The second method which would be more accurate is to take an ohms reading of an electromagnet made by Steven Gibbs. I have a chart which shows me how many feet per ohm of wire for each AWG wire size. The value for 21 AWG wire is 78.111 feet/ohm. If I could get an HDR owner to take this measurement, then duplicating the electromagnet would be much easier.</p><p></p><p>The reason for my wanting to duplicate the electromagnet is because the HDR units made by Steven Gibbs don't appear to have any complaints by their users. Which isn't the case for HDR units made by someone else. </p><p></p><p>Also there is the stated info that the electromagnet uses a soft iron core. All of us that attempt to duplicate the magnet are left using a steel core due to the unavailability of soft iron. So I don't really know if that makes a difference. But wrought iron is also very low in carbon content so that might be an acceptable substitute. Cast iron is very high in carbon content and would be even less desirable than using a steel core.</p><p></p><p>I have made two versions of the electromagnet. One using the picture measurement method. The second one I made using a 7 row method. Where a row is two layers of wire. So my second electromagnet only measures 1 and 3/4 inch across. It turns out there is a difference on an oscilloscope between the 2 different electromagnets. The larger electromagnet shows only a negative 60 DC volts left over after going through the electromagnet. The smaller electromagnet shows there is a negative 100 DC volts left over. The available voltage after the electromagnet is what goes through the time coils. So what that value is supposed to be is unknown. But I'll bet that this is why the Gibbs HDR's work and others don't.</p><p></p><p>Here is a picture of the 2 electromagnets I have made: </p><p></p><p><img src="http://s26.postimg.org/6veqquz61/100_0531.jpg" alt="" class="fr-fic fr-dii fr-draggable " style="" /></p></blockquote><p></p>
[QUOTE="Einstein, post: 118350, member: 288"] Hi Steven I do believe the published info for constructing the electromagnet is incorrect. I recall it being 21 AWG wire, 7 layers wound on a 7 inch soft iron core. It was also stated that the amount of wire to use was 200 feet. But there is a couple of ways to find out how much wire to use. The method I used was the picture method. There is a picture on the web of an electromagnet made by Steven Gibbs. I used this picture to take measurements off of to determine how much wire to use to make the electromagnet. [IMG]http://www.fluxcap.com/electromagnet_watch.jpg[/IMG] I just downloaded this image to my hard drive and adjusted the size on my monitor screen so that the magnet core length was 7 inches. The winding diameter shows to be 2 inches. The actual winding length appears to measure around 6 inches. The tapers at each end appear to be some type of filler putty. So the actual winding on a Steven Gibbs magnet measures out to be 6 inches long by 2 inches wide. The second method which would be more accurate is to take an ohms reading of an electromagnet made by Steven Gibbs. I have a chart which shows me how many feet per ohm of wire for each AWG wire size. The value for 21 AWG wire is 78.111 feet/ohm. If I could get an HDR owner to take this measurement, then duplicating the electromagnet would be much easier. The reason for my wanting to duplicate the electromagnet is because the HDR units made by Steven Gibbs don't appear to have any complaints by their users. Which isn't the case for HDR units made by someone else. Also there is the stated info that the electromagnet uses a soft iron core. All of us that attempt to duplicate the magnet are left using a steel core due to the unavailability of soft iron. So I don't really know if that makes a difference. But wrought iron is also very low in carbon content so that might be an acceptable substitute. Cast iron is very high in carbon content and would be even less desirable than using a steel core. I have made two versions of the electromagnet. One using the picture measurement method. The second one I made using a 7 row method. Where a row is two layers of wire. So my second electromagnet only measures 1 and 3/4 inch across. It turns out there is a difference on an oscilloscope between the 2 different electromagnets. The larger electromagnet shows only a negative 60 DC volts left over after going through the electromagnet. The smaller electromagnet shows there is a negative 100 DC volts left over. The available voltage after the electromagnet is what goes through the time coils. So what that value is supposed to be is unknown. But I'll bet that this is why the Gibbs HDR's work and others don't. Here is a picture of the 2 electromagnets I have made: [IMG]http://s26.postimg.org/6veqquz61/100_0531.jpg[/IMG] [/QUOTE]
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