Portals and Crooked Trees

The crooked tree was a mystery long before I discovered the portal. It was a strong, healthy oak tree but dramatically leaning toward the portal. I have dozens of photographs of this tree from different angles, as I puzzled over this long before I was aware of the high level of anomalous activity in this particular area.

Since I shot my infrared video of the portal opening and realized the light that illuminated my video came from inside the portal but was not visible to the naked eye, I am sure infrared radiation plays some part in these phenomena. What is the relationship between an infrared source and gravity, or a magnetic force that would pull the tree into it?

Infrared radiation and magnetic fields are both forms of electromagnetic radiation, but they exist in different regions of the electromagnetic spectrum and have distinct properties. IR radiation primarily consists of photons with wavelengths longer than visible light but shorter than microwaves, while magnetic fields arise from the movement of electrically charged particles.

To understand how an infrared source could generate a magnetic field, we need to consider the principles of electromagnetism, particularly how changing electric fields can induce magnetic fields, as described by Maxwell’s equations.

Electromagnetic Waves: When an electric charge accelerates or changes its velocity, it creates a changing electric field around it. According to Maxwell’s equations, a changing electric field induces a magnetic field. This relationship is fundamental to the propagation of electromagnetic waves, including infrared radiation.

Thermal Motion and Charge: In materials, thermal motion causes the movement of charged particles, such as electrons. Even in seemingly neutral materials, there are always small fluctuations in charge distribution due to thermal energy. When these charges accelerate or move, they create changing electric fields.

Infrared Emission: An infrared source, such as a heated object or an infrared emitter, emits IR radiation due to the thermal motion of its constituent particles. As the particles move and interact, they generate changing electric fields associated with the oscillation of charged particles.

Induced Magnetic Field: The changing electric fields associated with the emission of IR radiation can, in turn, induce magnetic fields according to Maxwell’s equations. These induced magnetic fields may be weak compared to those produced by other sources but are nonetheless present.

It’s essential to note that the strength and characteristics of the magnetic field induced by an infrared source depend on various factors, including the intensity of the IR radiation, the nature of the material emitting the radiation, and the distance from the source. In most cases, the magnetic fields induced by typical IR sources, such as thermal radiation from everyday objects, are extremely weak and not easily detectable without sensitive equipment.

While an infrared source itself does not directly generate a magnetic field in the traditional sense, the changing electric fields associated with IR radiation emission can induce magnetic fields according to the principles of electromagnetism outlined by Maxwell’s equations.

I believe it’s possible a bent tree like this could be an indicator pointing to a portal area. Researchers investigating areas of recurring anomalous activity may want to take note of a crooked tree, and possibly the area it is directed toward. Consider some type of surveillance, perhaps an infrared trail cam.

If I had not recorded this with my infrared camcorder, I wouldn’t have known this dramatic activity occurred just feet away from where I was standing, although I was aware of beams shooting from the same locality. The crooked tree is bending directly into the area where the bright infrared light was recorded, the portal opened and unseen beings emerged.