Firenados abide Right Hand Rule for Electromagnetics Fire Whirl Fire Vortex
Electromagnetic energy beams cause vortex spinning force-fields around current flow.
None of the several youtube presenters I’ve been watching for months have said anything about this yet, and I’m surprised because it is old science, well-known.
I guess I’m not too surprised because they have also recently begun using many of the terms I’ve been explaining for years regarding DEW attacks, including eddy currents, molecular friction heating (“microwave heating”, “rf heating”, “dielectric heating”, etc), electromagnetic skin-effect of flat metal surfaces, warping/wilting/self-crumpling of ferromagnetic materials and lava-like pooling and puddling of other metals, etc.
Wikipedia of course calls them Fire Whirls.
The Right-Hand Rule is a visual tool used in physics and electromagnetism to determine the direction of a magnetic field, current, or force in a system. It applies particularly to the relationship between electric current (or electron flow), magnetic fields, and resulting forces. However, electron flow (negative to positive) is opposite to conventional current (positive to negative), so adjustments are often needed.
Here’s how it applies in different contexts:
Right-Hand Rule for Magnetic Fields around a Current-Carrying Wire
- Situation: A wire carries an electric current.
- Rule:
- Point your thumb in the direction of conventional current (positive to negative).
- Your curled fingers represent the direction of the magnetic field encircling the wire. Note: For electron flow (negative to positive), the magnetic field direction is opposite to what the Right-Hand Rule predicts.
Right-Hand Rule for Force on a Moving Charge (Lorentz Force)
- Situation: A charged particle moves through a magnetic field.
- Rule:
- Point your fingers in the direction of the particle’s velocity (for positive charge, or reverse it for electrons).
- Orient your palm so the magnetic field points in (or out) of it.
- The direction of the force on the charge is where your thumb points.
Right-Hand Rule for a Solenoid
- Situation: A solenoid (coil of wire) carries current, producing a magnetic field.
- Rule:
- Curl your fingers in the direction of the conventional current flowing through the coils.
- Your thumb points in the direction of the magnetic field inside the solenoid.
Adjusting for Electron Flow
Since electron flow is opposite to conventional current:
- Use your left hand in place of the right hand.
- Follow the same steps as above for electron flow direction.
By visualizing or practicing these steps, you can accurately predict relationships between currents, magnetic fields, and forces in electromagnetism!
