Post by Abdul Qadir
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π LinkedIn Post Draft (English - Full Detail) Title: Electro-Microscopic Physics and the Practical Reality of Ohm's Law: The Abro Electric Theory π‘π Today, I am presenting a true microscopic and practical scientific concept to the engineering, technology, and educational community that directly challenges the rote-learning culture of traditional educational institutions (schools, colleges, and universities). This research is the result of deep intellectual reflection by Engineer Abdul Qadir Abro, a retired Senior Officer from Pakistan International Airlines (PIA) and an eminent Electrical Engineer. β The Big Field Question That Confuses Students: In practical fields and large industrial plants, when processes like iron electroplating or chemical electrolytic rust removal take place, the voltages are kept very low (e.g., 6V to 12V), but the current amperes are extremely high (e.g., 500 to 1000 Amperes). Laborers work in these chemical solutions with bare hands, yet they do not experience any electric shock. At this point, a student becomes severely confused because Mr. Ohmβs law states that "current is directly proportional to voltage"βmeaning that if the voltage is low, the ampere current should also be low! Why then is an inverse action occurring in the factory despite the low voltage, and how are such high amperes being generated? This practical reality is something our professors and teachers never openly explain. π¬ The True Microscopic Reality Under "The Abro Electric Theory": Breaking away from this traditional textbook incompleteness, Engineer Abdul Qadir Abro explains the true physical mechanics at the electro-microscopic level as follows: Abundance of Electrons in Thick Wires: When thick wires are used for industrial plants, the total quantity and collective reservoir of free electrons inside these wires increase exponentially at the microscopic level. Excitation of Electrons at Low Voltage: It is often assumed that a low voltage cannot excite a massive amount of electrons. However, the microscopic reality is that even the slight pressure of a low voltage is capable of exciting millions of free electrons simultaneously at the atomic level. Spinning and Oscillation: These excited electrons do not rush down the wire; instead, they spin intensely on the spot and undergo a severe oscillation. The Birth of Magnetic Dipoles: Due to this rapid spinning and oscillation, the electrons inside the wire transform into microscopic "Magnetic Dipoles," meaning they establish their own distinct North Poles and South Poles. Strong Electromagnetic Field and Current Amplification: When billions of electrons simultaneously become magnetic dipoles and oscillate in an aligned sequence, their combined interaction generates an exceptionally strong electromagnetic field insid #ElectricalEngineering #TheAbroTheory #ElectroMicroscopicPhysics #OhmsLaw #CriticalThinking #EducationReform #MagneticDipoles #PakistanEngineering #Mentorship #PIA #DAEElectrical