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Marko Rodin has studied a series of simple regularities in the decimal number system. From these he derives his "Vortex mathematics". Vortex mathematics is purported to explain all mathematical operations, the genes, and non-decaying energy. These regularities are inherent to the decimal system because of its base. You can find similar regularities in systems other than the decimal. They are for example applied in binary arithmetic - to make the computer work you're sitting in front of.

The Rodin Coil consists of a pair of wires wrapped around a doughnut-shaped core in a star pattern. Rodin claims this particular design, deduced from his number theory, yields different electromagnetic properties than any other coil - enabling it to create perpetual energy, and thus breaking fundamental laws of physics. Rodin admits no being able to build those coils himself - as he is "not an electrical engineer" (see http://www.YouTube.com/watch?v=zVrrtigKcpE&feature=related at 3:00). In absence of any scientific proof, it remains therefore highly questionable, to say the least, whether the Rodin coil has any special physical properties.

According to Rodin, the coil represents the underpinning geometry of the universe, which draws its non-decaying energy from the vortex, the zero.

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What is A sentence for the word coil?

One way you can write it is : She had to coil it around to activate it.Or you could say: I had to coil it for a project.


What would happen to the voltage and the magnet is withdrawn from the coil?

When the magnet is withdrawn from the coil, the magnetic field within the coil will decrease, inducing a voltage in the coil. This induced voltage will create a current in the coil that flows in such a way as to try to maintain the original magnetic field.


What is the effect of moving into a coil of more loops?

Moving into a coil with more loops increases the magnetic flux linked with the coil, resulting in a higher induced electromotive force (emf) in the coil. This leads to a stronger current being induced in the coil due to Faraday's law of electromagnetic induction.


How is magnetic field made radial in a moving coil galvanometer?

The magnetic field in a moving coil galvanometer is made radial by surrounding the coil with a cylindrical magnetic core. When current flows through the coil, it creates a magnetic field perpendicular to the coil. This magnetic field interacts with the radial magnetic field of the core, causing a torque on the coil that deflects the pointer.


Why current flows in a coil when magnet is pushed in and out of the coil?

When a magnet is pushed in and out of a coil, it creates a changing magnetic field in the coil. This changing magnetic field induces an electromotive force (EMF) in the coil, which causes current to flow through the coil according to Faraday's law of electromagnetic induction. The amount of current flow is proportional to the rate of change of the magnetic field.