Updated 04/12/2025
Proteins are vital and provide resources for our cells and their function.
One could say that proteins provide atmospheric water, and with it, life is possible, but we must take into account Halley’s Comet and its position.
One could say that protein types can form a lot of atmospheric water, but if this happens with Halley’s Comet in its most distant position, it could put us in jeopardy because as it approaches, it can produce extra water, and the proteins can become tumorous for cells.
As aging goes, the Earth’s atmosphere doesn’t undergo many atmospheric changes due to proteins, but Halley’s Comet, in its 75-year rotation as it moves away and closer, can cause the age limit due to a problem with proteins.
It could be said that proteins lower the heart rate, and when sunlight draws resources like water from the earth, it could be said that proteins are less potent, and the less potent the protein, the more sunlight, and the higher the heart rate. This is alleviated by potent proteins. However, not knowing the position of Halley’s Comet and its effects could cause cardiac arrest over time due to the effect of certain types of proteins or potent proteins.
When sunlight creates more of an evaporation effect from ocean water, proteins dissolve more quickly, and the level of antibodies and atmospheric dust increases, which is favorable for melanin, but increases heart rate and stress.
The effect of sunlight and the dissolving effect of proteins can cause the dissolving effect of marine and terrestrial debris, releasing viruses from the antibody load or atmospheric dust.
Optimal protein levels can be measured through physical exercise and with smart devices. If, for example, the heart rate is low during the first kilometer we cycle, and as the proteins dissolve in calories during that kilometer, the heart rate rises, with the same speed and wattage performance, we can better calculate the performance of the heart and proteins. If the heart rate is high and physical performance is poor, we should regulate protein intake. It can happen that calories are not burned and performance decreases, due to the amount of calories in protein, which can change the heart rate when cycling many kilometers.
It could also be said that if we eat a low-protein diet, leukocytes release antibodies to prevent protein from entering cells, concentrating a greater amount of protein in the blood. This causes the ionization of atmospheric water, which stores oxygen so that when the protein enters cells, it decomposes the oxygen in atmospheric water. If there is little atmospheric water, it is due to a protein-poor diet, and oxygen concentrations in the atmosphere drop, and antibody levels are higher, drastically reducing physical performance.
Halley’s Comet could contain particles in its ice that function as solar system antibodies, and if antibody or particle concentrations rise, it could form water nebulae in the solar system, which would cause flashpoints and increased digestion of the planets in the solar system.
If the solar system expands, Halley’s Comet moves further away from the sun, causing sunspots on the sun due to the decrease in neutrons. This would further cool the sun, or increase antibody levels, and nebula clusters would form. As the solar system expands, the planets move apart, increasing their capacity for digestion or the digestion of life. The planets would take longer to rotate around the sun, and the speed of life’s digestion would increase. With the slower time, we would break records against the clock.
Halley’s Comet, in its path and orbit, could provide contrast to a nebula that exists, but we don’t see it in the solar system. It could be as large and as long as the entire path of Halley’s Comet. Halley’s Comet has the ability to make parts of the nebula appear and disappear, and when it does, it may have the ability to modify the amount of light from Earth, giving hope for the appearance of colors that are lost in too much sunlight.
Halley’s Comet may be water particles or frozen water part of the solar system’s nebula, but comets can also form in parts of the solar system’s nebula, which disappear because they are not stable.