IIRC, the front of the car is to the right in this diagram, I'm not quite sure anymore. But yes, the numbers coincide with the cylinders, so there is a way in which you can align the diagram with your engine.
Anonymous on 23 Apr : 21:10
Hey Bjoern. I have a question about your wiring diagram on the MAF conversion. Is the diagram of the injector wiring from the top view of the engine? Because I'm guessing the injector numbers don't coinside with the cylinder numbers? Thanks
The auto tranny is a problem, because you have a very limited choice of computers. Unfortunately, I have no idea about auto trannies and can't help you there. Conversion to standard is a big deal and not for the faint of heart. I bought a book on Ford EFI which I found to be very helpful and I learned a lot from it. I think it was this one: [link]
hey bjoern, ive had your maf conversion in my favorites forever... i finally rebuilt the engine, but put in a lumpier cam, along with some other minor mods, so now basically, it runs, but with the old map sensor, not so good. thats alot of technical words, and all ive worked on up to this point is oldies with carbs and no EFI, but im learning alot and im loving it. i have one difference, but i dont think it bothers anything, i have an automatic transmission, so if i install the maf system out of a newer pickup it may want to read the e40d when i just have an aod... unless maybe i can find one with a standard transmission?? i dunno, im getting so confused with all this technology, i would like to do it step by step just as you did. can you help me somehow?
This talk was all about long-term memory of classical conditioning in the pond snail Lymnaea stagnalis. Paul Benjamin is the eminent researcher studying this topic. To study this, the scientists in this lab condition feeding behavior. Sucrose works fine as the unconditioned stimulus (US) and either a tactile stimulus or amyl acetate serve as conditioned stimulus (CS). Depending on the number and spacing of CS-US pairings (trials) the formed memory can last up to 20 days. But even single trial conditioning can lead to long-term memory. The procedure is to train the animals and then dissect the preparation to probe the neuronal changes in the various ganglia. Apparently, much of the learning takes place in a set of modulatory interneurons in the cerebral ganglion which are located between the sensory input and the feeding central pattern generator. These modulatory interneurons have to fire at a certain rate for the buccal CPG to actually function. One of the changes after training is a depolarization of the CGC (cerebral giant cell) neuron. The CGC shows no changes in firing rate, spike threshold, input resistance or spike shape. This change is important as artificial manipulation of the membrane potential can mimic training. The increase in CGC potential leads to increased synaptic output apparently mediated by calcium. It seems as if this change in the CBC is potentiating the CS pathway. Also involved in these processes is nitric oxide (NO). NO synthase (NOs) genes are expressed in the snail CNS along with unusual anti-NOs genes, yielding complementary mRNAs.
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