After having shown experimentally the incorrectness of the Lorentz force law, I unveil here an important part of my magnetic theory: correction to the Biot–Savart law. I used the complete theory to create my experiments and got several evidences of the fail of the Lorentz force law and derived the numerous paradoxes that contradict the classical electromagnetic theory.

Please read the article at
Correction to the Biot-Savart law
pdf or word

Note: During my vacation, I stay reachable through email.

The importance of the Aharonov–Bohm effect is underlined by the qualification “one of the seven wonders of the quantum world” by the New Scientist magazine. Why is this effect so important in physics? In the following, I will explain the implication of my experiments and theory with respect to the Aharonov–Bohm effect.

Please read the article at
Consequences of macroscopic Aharonov-Bohm effect
http://pengkuanem.blogspot.com/2013/07/consequences-of-macroscopic-aharonov.html
or
http://academia.edu/3852332/Consequences_of_macroscopic_Aharonov-Bohm_effect

Note: I will be on vacation during July and August where I will not update my blog. Have a good summer to all in the north hemisphere or winter to those in the south hemisphere. See you in September.

Peng Kuan 彭宽 titang78@gmail.com
27 June 2013

Today, magnetic force is described by the Lorentz force law. But from theoretical and experimental research I have found strange magnetic forces that do not respect this law. For example, magnetic force that is parallel to current, magnetic force with irregular magnitude and non-zero magnetic force in zero magnetic field, I name theses forces “non-lorentzian magnetic forces”.

Non-lorentzian magnetic force exists also in materials. I have done an experiment using a bar magnet, iron sticks and aluminum scraps.

Please read the article at
Non-Lorentzian Magnetic force and Aharonov-Bohm effect in CRT http://pengkuanem.blogspot.com/2013/06/non-lorentzian-magnetic-force-and.html
or
http://academia.edu/3800480/Non-Lorentzian_Magnetic_force_and_Aharonov-Bohm_effect_in_CRT

The Aharonov–Bohm effect is a phenomenon in which an electrically charged particle is affected in a region in which both the magnetic field B and electric field E are zero. As there is not classical force exerted, this effect is commonly considered as quantum mechanical. However, the force in the Aharonov–Bohm effect is well explained by the corrected magnetic force law I proposed in “Unknown properties of magnetic force and Lorentz force law”
http://pengkuanem.blogspot.com/2013/04/unknown-properties-of-magnetic-force.html
In order to illustrate this explanation, I have done an experiment that shows this effect in ordinary condition, that is, with a current carrying wire and a bar magnet. The video of this experiment:
http://youtu.be/ugxmtT4FUME

Please read the article at
Macroscopic Aharonov–Bohm effect experiment and theory
http://pengkuanem.blogspot.com/2013/06/macroscopic-aharonovbohm-effect.html
or
http://www.academia.edu/3690352/Macroscopic_Aharonov-Bohm_effect_experiment_and_theory

Here is an improved parallel action experiment. In Theory about parallel action experiment blogspot academia, I have shown that a coil rotates under a magnetic force parallel to current, which is not predicted by the Lorentz force law. But that experiment did not clearly exclude the action of Lorentz force. The present experiment is designed in such a way that the coil turns in one direction under the parallel action force and in the other direction under the Lorentz force. The experimental result shows that the coil turns in the direction of the parallel action force (see the video ).
https://www.youtube.com/watch?v=8z4UD_4d_Wo

Please read the article at
Current and parallel action
http://pengkuanem.blogspot.com/2013/06/current-and-parallel-action.html
or
http://www.academia.edu/3654643/Current_and_parallel_action

The object of this article is to compute the overall Lorentz force a coil exerts on itself. For doing so, we cut the coil into 2 parts and compute the forces on each part, then sum the 2 forces. Naturally, many physicists suggest to compute the force by integrating the Lorentz force on the wire produced by the magnetic field in the vicinity of the wire, in Figure 1 (1).

Please read the article at
Computation of the self force of a coil
http://pengkuanem.blogspot.com/2013/05/computation-of-self-force-of-coil.html
or
http://www.academia.edu/3631539/Computation_of_the_self_force_of_a_coil

In real world, all objects obey Newton’s thirds law. A coil with current flowing within produces magnetic field that exerts force on the current of the coil itself. If the coil is not round, this force tends to make the coil round. But the total force on the coil is zero and the coil does not move as a whole. However, when this force is computed using the Lorentz force law, the total force is not zero. So, Newton is unhappy with Lorentz. In the following, we take the isosceles triangle coil ABC shown in Figure 1 and compute the total force numerically

Please read the article at
Unhappiness of Newton with Lorentz and triangular coil experiment
http://pengkuanem.blogspot.com/2013/05/unhappiness-of-newton-with-lorentz-and.html
or
http://www.academia.edu/3500211/Unhappiness_of_Newton_with_Lorentz_and_triangular_coil_experiment

I have proven theoretically that the Lorentz force internal to a coil is not zero (several proofs are in the references). But theoretical proofs are too long to read and too complex. I give here a numerical computation of the Lorentz force internal to an asymmetrical coil; the computed force is not zero.

Please read the article at
Numerical computation of the Lorentz force internal to an asymmetric coil
http://pengkuanem.blogspot.com/2013/04/numerical-computation-of-lorentz-force.html
or
http://www.academia.edu/3386868/Numerical_computation_of_the_Lorentz_force_internal_to_an_asymmetric_coil

This is the paper I submitted to a journal. Please make your opinion and tell me what you think.

The 2 experiments presented in this article show unknown properties of magnetic force. The Lorentz force law can neither explain these properties nor compute the magnetic force internal to an open circuit. A correction added to the present magnetic force theory allows explaining these new discoveries.

Please read the article at
http://pengkuanem.blogspot.com/2013/04/unknown-properties-of-magnetic-force.html
or
http://www.academia.edu/3266279/Unknown_properties_of_magnetic_force_and_Lorentz_force_law

I have designed the Lorentz perpendicular action experiment, blogspot academia, and predicted an outcome using my corrected magnetic force law: the test coil should not rotate when its axle is parallel to y-axis (see Figure 1).

However, when I did the experiment, the test coil rotated! Was my prediction wrong?
This is why I have posted Fail of the perpendicular action experiment, blogspot academia

Please read the article at
Magnetized wire effect and perpendicular action experiment http://pengkuanem.blogspot.com/2013/04/magnetized-wire-effect-and.html
or
http://www.academia.edu/3188535/Magnetized_wire_effect_and_perpendicular_action_experiment