Energy minimum and the wind (Energy is relative part 2.)

    Energy minimum and the wind (Energy is relative part 2.) 

Why there is wind in Neptune and Triton? Another way to make that question is, what puts gas and energy flow in those distant planets and moons? The fact is that the temperature in Triton and Neptune is not absolute zero or zero Kelvin. It's higher, and the other thing is that the temperatures at night and the dayside are different. And that causes energy flow from the dayside to the night side. 

Another thing is that the difference between temperatures in Neptune and Triton is higher than in Venus. That thing forms strong winds in those distant planets and their moon atmospheres. The gravitational effect on the Triton surface is lower, but also gas pressure is very low. And that causes a situation where the gravitational effect can cause gas flow. 

The gas or energy wall makes it possible that the great dark spot in Neptune's atmosphere remains almost forever. That structure is the higher energy point around the great dark spot. And that denies the outside effects of the storm. 

Neptune's great dark spot is a static storm. And if we could create a static storm, that would make the energy solution for the entire planet. 

The great dark spot in Neptune's atmosphere is the storm. The stable conditions cause a situation in this storm can remain for a very long time. The low energy condition like extremely low temperature in Neptune's atmosphere guarantees that the temperature in the great spot is higher than the environment. That thing causes the effect that a great dark spot or dark spot remains until side-coming energy breaks its form. 

Without strong enough friction, the great dark spot remains until outer areas in Neptune's atmosphere reach the same temperature as it. And that destroys the form. If the energy level outside this spot rises higher outside energy falls in that blue spot or great dark blue spot breaking its structures. 

There is a theory that the origin of that dark spot is in some kind of asteroid impact. That impact formed a shockwave and vacuum. When that shockwave loses its energy gas falls back in and then those gas waves impact in the middle of the vacuum. 

That causes reflection. And sooner or later there is a standing wave in Neptune's atmosphere. That standing wave with thicker gas causes an effect where its energy level is higher than in the middle of a storm or outside the storm. 

That standing wave is like an energy wall that sends energy in and out from that storm. It's possible that at the edge of the material is a similar energy wall that sends reflection radiation into the center of the universe. And that reflection is one source of dark energy. That energy wall explains why we cannot see anything outside the universe. As you see, material and energy are universe and space where it is in space. 

So if we think about zero-point energy that thing is the energy bottom in the system. And the systems are also relative to each other. Outside the universe is the system whose temperature is lower than the universe's 3 Kelvin temperature. That thing causes energy to flow out from the universe. And if we want to benefit from that energy, we must go to the edge of the material that we call the universe. And then use that energy to flow out from the universe. 

So if we want to benefit from the zero point energy, we must make a higher energy wave into it

Another possibility is to create an energy hole where that standing energy or quantum field falls. The problem is that the energy level cannot decrease below -273,15 degrees Celsius. So another way is to make a black hole that pulls this energy in it. That causes movement in that standing energy. 

But when we think energy minimum we forget one thing. The energy minimum is the environment's energy level. Or it's the minimum energy level in quantum systems. In the middle of the Sun, the energy minimum is 15 million degrees Celsius. And it depends on the system. 

The reason why absolute zero, zero Kelvin or -273,15 degrees Celsius cannot produce energy itself is that the difference between energy levels in absolute zero point and the three-kelvin universe is so slow and short-term. If we cool gas to -273,15 Celsius or zero Kelvin temperature, energy flows to that point. But energy transfer will be very low. 

The reason, why this thing will not affect the universe's temperature is that thermal energy from that gas is pumped into the universe. And the energy level in our universe is static. All known energy and material exist in the universe where we live. 

To make effect to the universe's temperature energy must be transported out from the system to the place, where it cannot interact with other particles. Energy is in our universe in the form of particles and wave movement. 

Energy minimum means that it's the absolute lowest energy level in the system. And we can go to the lower level. There is the possibility that gravitational fields can make the base energy level particles move. 

But if there are no differences between energy levels energy will not move. In the Triton moon, the primary effects that move gas are gravitation and differences in energy levels on day- and night sides. It is possible. That gravitation can cause movement in gas whose temperature is near zero Kelvin.