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The Value of VG1

Bob de Hilster, your particle model guru, continues his exploration of electronic circuits and verifying new predictions by the Particle Model. This time, looking at experimental results that current between resistors are not constant and finding the value of VG1 in the particle model. FOR THOSE NEW TO THE PARTICLE MODEL: The Particle Model Overview: http://first.particle.guru Two Gravities https://youtu.be/RxD7ZM1g-So

Finding the G2 Mass of the R1 Resistor

Bob de Hilster, your particle model guru, shows the results of adjusting the G2 mass of the R1 resistor in his latest experiment FOR THOSE NEW TO THE PARTICLE MODEL: The Particle Model Overview: http://first.particle.guru Two Gravities https://youtu.be/RxD7ZM1g-So

Results of 18 Tests - G1 Speed vs. Current

Bob de Hilster, your particle model guru, gives the results of the 18 tests that shows which equations the match the measurements. FOR THOSE NEW TO THE PARTICLE MODEL: The Particle Model Overview: http://first.particle.guru Two Gravities https://youtu.be/RxD7ZM1g-So

Initial Results - Speed vs. Current

Bob de Hilster, your particle model guru, states that the speed experiment shows that TPM equations with speed has the best match to measured data. This is supporting evidence for the Particle Model. Graph of Current - G1 Speed vs Current https://youtu.be/OM0je3x5S3E Physics of the Diode https://youtu.be/8xZcdsd7eN8   Physics of the Transistor https://youtu.be/GAc2xV78Z_g

Graph of Current - G1 Speed vs Current

Bob de Hilster, your particle model guru, gives his opinion on which set of equations will properly describe the value of G1 current flowing through a circuit. Related videos Physics of the Diode https://youtu.be/8xZcdsd7eN8   Physics of the Transistor https://youtu.be/GAc2xV78Z_g

Calculations for G1 Speed vs. Current

Bob de Hilster, your particle model guru, shows the results of calculations that predict the effect of G1 Speed on the value of current through the circuit. Physics of the Diode https://youtu.be/8xZcdsd7eN8   Physics of the Transistor https://youtu.be/GAc2xV78Z_g

Equations for VG1 and IfR

Bob de Hilster, your particle model guru, finally develops equations for two constants that are needed to calculate values in a DC circuit. Three Circuit Experiments - Exp #1 - 3R https://youtu.be/9U2lcnJz_ds 3R Experiment Results https://youtu.be/uJDfjrEfmus TPM Equations DC Circuits: A=I/(VG1*If) https://youtu.be/p6HiF63rJQg

Pioneer Anomaly

Bob de Hilster, your particle model guru, shows how the G1 particle field will slow down the Pioneer 10 and 11 spacecraft, just like the G2 particle field slows down light. Previous Video Red-shift and Tired Light https://youtu.be/C_6ypf_qmaU FOR THOSE NEW TO THE PARTICLE MODEL: The Particle Model Overview: http://first.particle.guru Two Gravities https://youtu.be/RxD7ZM1g-So

AC and DC Source with Transformer

Bob de Hilster, your particle model guru, shows explains why the transformer passes AC current and blocks DC. Previous Videos: TPM Equations - DC Signal with RL Load https://youtu.be/4CgEOvt3r68 Charge - A Contradiction https://youtu.be/jWZVNTu04OY

TPM Equations - DC Signal with RL Load

Bob de Hilster, your particle model guru, describes how the inductor develops a magnetic field. https://www.amazon.com/author/bdehilster Paperback, Full color: $34.99 E book: $2.99 Also www.amazom.com/books/ Search for: principia mathematica 2

YouTube Channel Coming Soon!

Particle and Gravity guru Bob de Hilster is preparing to launch his particle mastery upon the airwaves with some very new ideas of how the universe works.