Place an unlit star inside of a hollow sphere, such as a hollow planet or a hollow star-like planet, and you’ve got yourself the makings of a free energy device.

This unlit star is composed of cosmic gases huddled together but not undergoing a plasma state such as would be occurring surrounding a so-called star.

This is what a neon bulb does; it does the same thing. It provides the same service, the same functionality, as does the unlit tar inside the center of our hollow planet Earth, namely: it provides all of the power for our planet. The solar rays from our Sun is extra and not required for the functionality of our planet but only required for life on its surface!

You will notice that this version of a 100-watt light bulb challenge does not possess a power source, at least not an obvious one. But if you are familiar with Micro-Cap’s macro for a neon bulb, you’d already know that it possesses several behavioral voltage sources in addition to digital logic and analog components. It is these voltage sources that manage to power a circuit if you know how to take advantage of the minuscule power which they provide which I have taken advantage of on numerous occasions including this one.

As for what we think of when we think of a star, something that radiates sunshine, that is merely the atmosphere surrounding the planet that we call our Sun whose surface is calcium ferrite and whose atmosphere is ionized to the point of becoming a plasma composed of a blend of neon and silicon.

Lightning bolts electrically connect the surface of our sun with its ionized atmosphere. And every time a lightning bolt arises, a solar flare appears above it.