Structural Role Of EMF In Heat Generation
July 6th, 2025
Lesson Summary
For the first time in history, this textbook explains how heat in our solar system is not created by distance from the Sun or radiation from space, but by interaction between light and electromagnetic fields. This idea has never been taught in any science classroom or university. It is brand new, and it finally explains what scientists have observed but could not explain.
What You Will Learn
– What causes heat in space and on planets
– Why light does not travel like people think it does
– Why some planets are hotter than others, even if they are farther away
– How electromagnetic fields create heat when they meet light
What They Used to Teach
(and Still Do..For Now)
- Light travels like a car, from the Sun to planets
- The closer a planet is to the Sun, the hotter it is
- Heat comes from radiation that spreads out over distance
But These Ideas Do Not Match
What We See
– Venus is hotter than Mercury even though it is farther from the Sun
– The outer edge of our solar system is hotter than expected, over 50,000 degrees!
– Jupiter and Saturn generate heat in their atmospheres far from the Sun
What Actually Happens
Light does not move like a car. It is coherent across space.
Heat is created when light meets something structured, like:
– A planet’s electromagnetic field
– The Sun’s outer edge
– The outer border of the solar system (called the heliopause)
This meeting is called an encounter, and that is when light becomes heat.
How Strong is the EMF?
The stronger the field, the more heat is produced.
Let’s look at some examples:
| Planet or Region | Magnetic Field Strength | Observed Heat or Temperature |
| Jupiter | Very strong | 700 K hotter than expected |
| Saturn | Medium | Warmer upper atmosphere |
| Mars | Weak or broken | Very cold |
| Neptune | Weak | Cold |
| Heliopause | Strongest structure | ~50,000 K (Voyager) |
What Else Affects Heat?
Some planets have atmospheres that hold in heat after it is made.
These do not create heat but help keep it:
– Venus: thick CO₂ traps heat
– Earth: balanced atmosphere
– Mars: almost no atmosphere, so heat escapes
But even with no atmosphere, if there is no electromagnetic field, heat will not be created in the first place.
Why This is Important
This is the first time in history this has been taught.
No schoolbook, no university, no scientist has ever explained that:
– Heat in space comes from structure, not from distance
– Electromagnetic fields are what allow light to become heat
– The heliopause is not just the end of space, it is where the solar system lights up with energy
This is the first structural, coherence-based understanding of heat in the solar system.
And now, you know it.
Produced by The Lilborn Equation Team:
Michael Lilborn-Williams
Daniel Thomas Rouse
Thomas Jackson Barnard
Audrey Williams