EARTH LIKE PLANETS and REVERSE order of vital elements from low to high.
Though the planet seems to rotate infront of its parent star, there is inflection that defines its motion as being pulled by its own vapor trail so that some opposition in motion occurs as basic motion to the left = motion to the right, = the basic backwards motion of the gas pulling on it. This type of delay that would be observable from the planet indicates that early earth type planets do not move, rather it is the star that rotates and the planets gas trail that's keeping it in place or in reverse motion. Basic explanations for why the planet would be moving and yet not have all of its gaseous volume expended in half of 1 rotation as would occur had this image shown what is apparently observable as what its doing.
So what it appears to be is probably more faulty than the truth.
article by Henryk Szubinski
HD189733b appears to move <-------------------------- but the vapour trail is pulling it in the ---------------------------------------> direction
The rotating planet pulls or strips the star of it's energy by the heat of the planet and no atmosphere.
so some action reaction in spacial stillness must be responsible for the frontal jet force .(could be used in spaceships to test the theory).
The theory concludes that there are many Earth type planets that get gas trail pulled into various wrap around of the gas that remains in the orbit about the star, weaved like a ball of rope or string, into the traces of tying and sewing.
Here's the vapour force pull theory. HD189733b is basically shifted to the right by vapour pull at 1,,145 degrees arch from its star.So the closer the planet is to this shift factor, the greater is the chance that it is biological.
1,154 degrees into 360 minutes as seconds 1,154
decimal degree is
º 360' "
= º + 360'/60 + "/3600
= NaNº
How to convert degrees,minutes,seconds to decimal degrees. One degree is equal to 60 minutes and equal to 3600 seconds:
1º = 60' = 3600"
One minute is equal to 1/60 degrees:
1' = (1/60)º = 0.01666667º
One second is equal to 1/3600 degrees:
1" = (1/3600)º = 2.77778e-4º = 0.0000277778º
For angle with d integer degrees m minutes and s seconds:
dº m' s"
The decimal degrees dd is equal to:
dd = d + m/60 + s/3600
ExampleConvert 30 degrees 15 minutes and 50 seconds angle to decimal degrees:
30º 15' 50"
The decimal degrees dd is equal to:
dd = d + m/60 + s/3600 = 30º + 15'/60 + 50"/3600 = 30.263888889º
This then measures the time angle and temperature as converted to the 360 second rotation of 1 full orbit.
The decimal degree might be the Earth type temperature on it as 30,26 degrees celcuis is low enough for life to survive by taking into account that
some places on Earth are 43 degrees Celcius in the desert regions of Australia and people survive.
This could work as a map to chart every Earth type planet
from Microsoft Help page on how to convert longitude and latitude to decimal degrees.
To find a location on a map by using the latitude and longitude of that location, enter the coordinates in decimal degrees.
If the coordinates that you want to enter are in degrees and minutes, convert the number of minutes to a decimal value.
To convert the number of minutes to a decimal value, use the following formula:Decimal value = Minutes/60
As an example, a latitude of 122 degrees 45 minutes North is equal to 122.75 degrees North.
To convert Seconds to decimals, divide by 3600.Decimal value = Seconds/3600
As an example, a latitude of 122 degrees 45 minutes 45 seconds North is equal to 122.7625 degrees North.
So the complete formula looks similar the following:Decimal value = Degrees + (Minutes/60) + (Seconds/3600)
From this data distance and bearing can be computed as well as lots more,. so every typographical function could be used to fully map the planets without being there simply by comparisons with stars and their type 1 planets where the basic arch degree = 1 Earth type topographical representation in change with the extra 1 degree variations by sweeping over the planet with the Earth 1 degree in flux change to alter the Earths data into the alien planet data as 1,145 degree arch in change.
So to combine the computation theory i made with the basic 3 types of references gained and the possibility to define even greater numbers of topographical data ,makes this theory able to compare the data topography that is there currently as worked out by the type 1 degree that gives every type of topography on Earth. So the system can be applied to dynamic change by knowing the degree difference that gives the singular + the degree difference = change of the 1:1,145 as the ratio between them in types of data landscapes of type 1,2,3 planets.
The alterations of the decimal value as related to 1 by +- some value is defined by the PULL of gas around the host star so that the basic look of the planets surface can be computer defined by the bands around the star as moving in the opposite directional orbit so that the theory will work to define the planet details .