Basics of temperature and the heat effect.
by Henryk Szubinski
When on Earth, people who wear dark clothes get warmer faster. Because of the amount of light absorbtion. While those who wear
white clothes experience less heat. The white light reflects off the clothes and generate less heat because the dark clothes absorb the
missing white spectrum.This is due to the blue polarization of the Earth's blue atmosphere.
So then, the Mars environment and the ,"pink or liter color" atmosphere will effect space suits differently than the heat of white or dark
reflection or absorbtion.
What could the comparisons be made with.
My guess is that the blue shift creates an effect where light displaces towards the astronaut wearing the ,"blue space suit". So that while,
the atmosphere may be in the red shift direction. The rules would be as follows;
1) that to wear blue color variable ,"spacesuits" would reflect the light off the spacesuit as related to the,
2) absorbtion of the complementary color as the complementary of blue= orange.
So wearing orange space suits on Mars would create the absorption of light that increases the heat. Much like the rule, that, "you get what you see".
Meaning, that , when you observe the warmth of a color , then that color must be as the warmer color of the stars that have higher temperature.
So to keep cool on Mars, the use of blue spacesuits would be recommended.
blue reflects light= cooler temperature on Mars.
by Henryk Szubinski
When on Earth, people who wear dark clothes get warmer faster. Because of the amount of light absorbtion. While those who wear
white clothes experience less heat. The white light reflects off the clothes and generate less heat because the dark clothes absorb the
missing white spectrum.This is due to the blue polarization of the Earth's blue atmosphere.
So then, the Mars environment and the ,"pink or liter color" atmosphere will effect space suits differently than the heat of white or dark
reflection or absorbtion.
What could the comparisons be made with.
My guess is that the blue shift creates an effect where light displaces towards the astronaut wearing the ,"blue space suit". So that while,
the atmosphere may be in the red shift direction. The rules would be as follows;
1) that to wear blue color variable ,"spacesuits" would reflect the light off the spacesuit as related to the,
2) absorbtion of the complementary color as the complementary of blue= orange.
So wearing orange space suits on Mars would create the absorption of light that increases the heat. Much like the rule, that, "you get what you see".
Meaning, that , when you observe the warmth of a color , then that color must be as the warmer color of the stars that have higher temperature.
So to keep cool on Mars, the use of blue spacesuits would be recommended.
blue reflects light= cooler temperature on Mars.
orange spacesuit absorbs the heat from the Mars atmosphere.
The Mars atmosphere variables are , "lite brown, red, orange".