Computers register new dimensions of time and space. History is recalculated. Heat is lifted to the outer space.
We want to create perfect weather and lift heat to the outer space. We base our future climate models on data of the past observations. We use meter, kilogram and second as well the periodic table of elements to analyze data and to project the future of the climate of our planet. Our planet heats up because our technology, accountancy, forecasting and reporting are based on the same constants of physics and chemistry. Introduce second constant for space and new constants for time based on movement of moon around our planet. Moon moves around our planet in ellipse and creates high tides and low tides. Introduce new constant of space i.e. the distance from a spot on our planet to moon. Extraction of materials and accountancy have the same wave nature. Recalculate all weights and prices in history of economy and all weather data during period from one new moon to the next and from one equinox to the next.
Category of the action
What actions do you propose?
Create a map which shows astronomical time of a building. Issue requirement to show it for every public event along with the time of the time zone.
Human body has two hands with five fingers. Four are straight with three parts each plus thumb. We base calculation of time and physics and chemistry on our physiology.:
(1+2+3+4) = 10
360/15=24 i.e. 15 degrees = 1 hour
1 * 2 * 3 * 3 * 4 * 5 = 360
1 + 2 + 3 + 4 + 5 + 6 = 21 = 3 * 7
3 * 7 * (3 + 7) = 210 = 1 + 2 + 3 + 4 + 5 + 6 + 7 + 8 + 9 + 10 + 11 + 12 +13 + 14 + 15 + 16 + 17 + 18 + 19 + 20
We divide one day one rotation of our planet into 3600 * 24 or (1*2*3*4*5) * (1*2*3*4*5*6) seconds. We divide a circle by 360 degrees.
There are 32 or 2^5 columns and 7 rows in periodic table of elements. We can divide it into 2 sides.
1 row 1^2=1 element
2 and 3 rows 2^2=4 elements
4 and 5 rows 3^2=9 elements
6 and 7 rows 4^2=16 elements
Every computer BIOS and operating system registers coordinates, direction of the building or street of the device, the weight of unit of mass Y, the time of moon and sun: one rotation of our planet around the sun divided into 360*24*60*60, the time of the time zone, astronomical of the sun at the place of device, the time that passed from the new moon in moon time scale i.e. one moon cycle divided into 30*24*60*60. Astronomical time of the place is calculated from GPS data. Moon moves around our planet in ellipse. Make a distance from the spot of the device on our planet and the moon as a constant. Divide it into 300 000 000 parts and name it X. 1 m3 of water (H2O) weights 1 000 kg. After completion of one moon cycle recalculate value of constant X. Recalculate weight of volume cube of water X^3. Divide it by 1000 and assign result to Y. Recalculate weight of all metals extracted from ore in accountancy and their prices during one moon cycle using unit of weight Y. Recalculate weather history for distances and speeds using constant X and all 4 constants of time. Forecast weather using new scales.
Who will take these actions?
Governments adjust legislation process based on moon cycles.
Governments issue new requirements of time registration for business accounting, software and hardware.
Governments implement two calendars.
Where will these actions be taken?
In all countries.
What are other key benefits?
People will be healthier. There would be more contentment and less wars.
What are the proposal’s costs?
1 year to adjust legislative routine and for preparation for transition to two calendars and to create new hardware and software to register additional date and time.
0.5 years to upgrade hardware and software.