So far we came to the end of this presentation. Its topic was to present the Planet-Without-Atmosphere Effective Temperature Complete Formula:
Te = [ Φ (1-a) So (1/R²) (β*N*cp)¹∕ ⁴ /4σ ]¹∕ ⁴ (K)
This Formula is based on the incomplete effective temperature formula:
Te = [ (1-a) S / 4 σ ]¹∕ ⁴
And also it is based on the discovered of the Rotating Planet Spherical Surface Solar Irradiation Absorbing-Emitting Universal Law:
Jemit = σΤe⁴/(β*N*cp)¹∕ ⁴ (W/m²)
Here the (β*N*cp)¹∕ ⁴ is a dimensionless Rotating Planet Surface Solar Irradiation Warming Ability.
Φ – is the dimensionless solar irradiation spherical surface accepting factor.
Accepted by a Hemisphere with radius r sunlight is S*Φ*π*r²(1-a), where Φ = 0,47 for smooth surface planets, like Earth, Moon, Mercury and Mars…
β = 150 days*gr*oC/rotation*cal – is the Rotating Planet Surface Solar Irradiation Absorbing-Emitting Universal Law constant
N rotations/day, is planet’s sidereal rotation period
cp cal/gr oC – is the planet’s surface specific heat
σ = 5,67*10⁻⁸ W/m²K⁴, the Stefan-Boltzmann constant
The Rotating Planet Surface Solar Irradiation Absorbing-Emitting Universal Law is based on a simple thought. It is based on the thought, that physical phenomenon which distracts the black body surfaces from the instant re-emitting the absorbed solar radiative energy back to space, warms the black body surface up. In our case those distracting physical phenomena are the planet’s sidereal rotation, N rotations/day, and the planet’s surface specific heat, cp cal/gr oC.
Conclusions:
We had to answer those two questions:
1. Why Earth’s atmosphere doesn’t affect the Global Warming?
It is proven now by the Planet Effective Temperature Complete Formula calculations. There aren’t any atmospheric factors in the Complete Formula. Nevertheless the Planet-Without-Atmosphere Effective Temperature Complete Formula produces very reasonable results:
Te.earth = 288,36 K, calculated by the Complete Formula, which is the same as the
Tsat.mean.earth = 288 K, measured by satellites.
Te.moon = 221,74 K, calculated by the Complete Formula, which is almost identical with the
Tsat.mean.moon = 220 K, measured by satellites.
Earth has a very thin atmosphere; Earth has a very small greenhouse phenomenon in its atmosphere and it doesn’t warm the planet.
2. What causes the Global Warming then?
The Global Warming is happening due to the orbital forcing. It is not happening because of the atmosphere. We have the prove – a newly discovered for the Rotating Planet Surface Solar Irradiation Absorbing-Emitting Universal Law:
Jemit = σΤe⁴/(β*N*cp)¹∕ ⁴ (W/m²)
And knowing that
Jemit = Jabs
And Jabs = [ Φ (1-a) So (1/R²) /4 ] (W/m²)
Solving for Te we obtain the Planet without Atmosphere Effective Temperature Complete Formula:
Te.earth = [ Φ (1-a) So (1/R²) (β*N*cp)¹∕ ⁴ /4σ ]¹∕ ⁴ = 288,36 K
The calculations made by the Planet without Atmosphere Effective Temperature Complete Formula also correspond to the next conclusion:
The measured by satellites Earth’s mean temperature T = 288 K is the Earth’s surface radiative equilibrium temperature.
And… what keeps the Earth warm at Te.earth = 288 K, when the Moon is at Te.moon = 220 K? Why Moon is on average 68 oC colder? It is very cold at night there and it is very hot during the day…
Earth is warmer because Earth rotates faster and because Earth’s surface is covered with water.
Does the Earth’s atmosphere act as a blanket that warms Earth’s surface?
And also it is based on the discovered of the Rotating Planet Spherical Surface Solar Irradiation Absorbing-Emitting Universal Law:
cp cal/gr oC – is the planet’s surface specific heat
In our case those distracting physical phenomena are the planet’s sidereal rotation, N rotations/day, and the planet’s surface specific heat, cp cal/gr oC.
Tsat.mean.earth = 288 K, measured by satellites.
Tsat.mean.moon = 220 K, measured by satellites.
Jemit = Jabs
And Jabs = [ Φ (1-a) So (1/R²) /4 ] (W/m²)