We overworked a quantitave ecological theory.

We overworked a quantitave ecological theory.


( ) A basis of the theory is so called the calorimetric equation (the cal. E.gq.) which links a temperature of the Earth atmosphere with sources of heat delivered to the Earth atmosphere ( heating the atmosphere) and ” sources” of the heat taken out from the atmosphere (cooling the atmosphere) or a heat lost by the atmosphere in a result of emission of the electromagnetic radiation.

( ) From the Cal E.Q. we derived two functions:

The one represents a dependence  of temperature of the Earth atmosphere on time ; the second one is representing a reverse dependence  giving the moments t when determined temperatures the Earth atmosphere took place.

The functions  and  are following ones:

 

 

Where:

The dependence  establish the thermal history of the Earth. It  can be reffered to the future, also- it allows to calculate time moments when certain temperatures being important for the man (the mankind) will occur.

( ) We calculated effectively (results given in a form of numbers) several time moments corresponding to the temperatures being important for the man or important from point of view of the antropology. These time moments are following ones:

1)      The latest date when a temperature of the Earth was equal to temperature of the interstellar space.

1’)  This date is the date of beginning of a process of heating the Sun.

2)      The date when a first man appeared on the Earth. This date is a date of burning the Sun to temperature of visibility. Since this a period of rotational motion of the Earth was derided in two time periods- a day  and night. For calculation of this date we assumed that a temperature of the Sun is equal to~ 300°K (a substantial of such assumption is given in our theory of the intensity of radiation of Stars and Planets. Here we make known only that the electron radiation  R reaches in the temperature ~300°K its maximum. We inform that there exist another kind of radiation called by us the atom radiation (AR) which one reaches its maximum in the temperature 6·.

3)      The time moments when the temperature of the Earth atmosphere reached values equal successively to (-30 (243°K), (-10 (263°K), 0

4)      The last date 10 is of essential meaning conditions for growing planets and animkals were  an that time close to these ones taking place in contemporary times.

5)      The date when temperature of the Earth atmosphere will reach a level of so called “the safe temperature for the man”. We assume that “the safe temperature” is equal to 36,6° ( a constant temperature of the animal and human organisms). These distinguished dates pointed out in the point 1-5) are following ones:

 

 

 

 

 

 

We calculated several temperatures corresponding to certain time moments being important from a stand point of knowledge about the man (the man-kind) or being important from a standpoint of the antropology these distinguished time moments are following ones:

1)      The date of appearance on the Earth of the australopitekantropuous. This guy is recognized by the ecologists as the 1-st man on our Planete Earth.

2)      20 thousands years before the Christ

3)      10 thousands years before the Christ

4)      3795years before the Christ ( the Bible date of creation of the world).

5)      The date concerning the future of the man (the mankind)- a time moment when a temperature of the Earth atmosphere will reach a value equal to 36,6°C.

Having time moments t we can calculate temperatures  corresponding to these time moments on a basis of the function  (see the page 1).

Temperatures  in time moments t given in the points 1)-5) calculated by us on a basis of the function  (see page 1) are following ones:





We calculated a temperature of equilibrium of atmosphere. We may assume that the equilibrium temperature of the atmosphere is equal to the equilibrium temperature of the Earth. In a state of equilibrium a temperature remains constant one. Thus temperature one this the equilibrium temperature can be achieved from the Cal. EQ. by comparision the right side of this equation to null. Taking into account our constanation that a heat generated in the atmosphere by the mankind is neglibly small in comparision to heat delivered by the Sun we have the equation of the equilibrium in the form:

 

Hence:

 

Putting in this formula

                                         

we find:

 

A time moment  when the equilibrium was achieved can be calculated on a basis of the dependence  (see the page 1).

A result of calculation is:

 

We calculated two other quantities which may be of interest of ecologists. These ones are : a power  of a heat contained in the air being breathed out by the mankind. We calculated the power  in three manners: in the 1-st manner- we used the proper heat  of the air ; in the second one - the heat of burning  of a coal contained in a blood undergoing an oxidation in the flunges : In the 3-nd method we used an amount of energy per day necessary for the average man for functioning his organism and accomplishing a work (so called “the life need). Suitable formulas are following ones :

 

=

The date used for calculations are :

1-st method :

2-nd method :

Results of calculations are :

 

 

 

The conclusions drawn from achieved results are :



Several dates from the thermal history of the Earth.

The dates concerning the Earth its past, present and future can be achieved from the calorimetric equation for the Earth atmosphere. Approximated solution of the equation obtained at the assumption about constancy of the term referred to the heat representing a contribution of the mankind to the temperature of the Earth is :



The constant K can be of calculated if the Earth temperature is known for a determined moment of time. Fortunately we know a pair  of these quantities. This par can be on of taken from an average temperature of the Earth measured already since years. In character of the pair  we took the year 2013 and average temperature for this year equal to 17°C (290°K). A value of the constant K calculation from the Q. Eg. for these data is :

K=

Now having certain dates from the past and the future of the Earth and the recent (2013 year) one can calculate temperature  of the Earth in times determined by these dates. But a relation  one can use in the inverse manner- assuming that the Earth temperature is known one can calculate a time when a certain a temperature was taking place or will be taking place possibility is for us the habitants of the Earth, very interesting, and impotentant one because it allows to anticipate in a what time temperature of the Earth will reach a determined value. For us, the Earth habitants, a such temperature peculiarly important is a temperature being safe for the people. It would be a temperature of the atmosphere that the man could live on the Earth without any essential harm for his organism. For a such temperature we admitted the constant temperature of the human body 36,6° C. We calculated it “the safe temperature”. Having in mind that the relation  depends on a value on the K constant we considered 3 value of the constant K of similar magnitude. In a character of the other dates being important ones from a point of view of the thermal history of the Earth we took the following dates :

1)      A date of burning the Sun to a temperature of visibility. (We remind that a temperature of visibility of the Sun according to our theory of intensity of radiation of Stars and Planets is equal to ~300° K. A such low temperature of the Sun results from the face that a visible radiation of the Sun is a temperature of the electron radiation but not of the atom radiation as the astronomers assume. (according to then a temperature of the Sun is equal to  .

2)      A date when the average temperature acceded markedly the temperature equal to 0°C.

3)      A date of occurring of the Plants (a melting ices on a marked surface on the Earth).

4)      A date of occurring of the animals.

5)      A date of occurring of the man.

Conclusions

( k ) Our Planets Earth and similarly other Planets of the Solar system are not in the thermodynamical equilibrium. A temperature of the Earth ( the average temperature) is equal 291°K (~20°C) is markedly bigger one than its equilibrium temperature which one amounts ~260°K (~13°C).

(2k) Not the Sun but the man, his presence and his economical activity shape a temperature of the Earth in essential degree.

(3k) An influence of the man on the Earth temperature is incomeasurablely bigger on the an influence of the Sun. A man reason happening the Earth temperature is the heat produced by people in a process of breathing. This heat arises in a result of the reaction of oxidizing of the blood in the phenomena and it is much bigger on that a heat        from the human organism in the psychological process (    , an escape of energy (heat) from the human body in from of the electromagnetic radiation is markedly lower one than the heats produced in the processes of breathing and nutritioning of the human organism (life needs of the organism).

(4k) As the recent Earth temperature is caused by the population of people thus thermal conditions on the Earth recently are drastically different these ones taking place in a time before appearing of the man on the Earth.

In that time a temperature of the Earth was shaped by the Sun providing that the Sun was a Star already burnt to the temperature of visibility (this provision is necessary because in an initial state of the universe all Stars and Planets were being found in a state of the equilibrium with the interstellar space but this means that they were very cool ones as the temperature of the interstellar space is equal to 3,64°K. In this situation a fundamental question arises :

Who created physical conditions on the Earth favorable for existence of the man? But the conditions favorable for life of people and animals mean that the Earth temperature had to be close to this one taking place recently. We may answer that these favorable conditions for the man could create the Sun. But in such situation a coordinal question arises: who did heat the Sun to a temperature enabling existence of life on its Planete Earth? We do not see such forces in the nature and such laws governing them to achieve a recent thermal state of the Solar system and its Planets Earth with the physical condition being optimal ones for existence of the people. Our answer to stated question is: the Solar system, in a particular our Planete Earth is the deed of the God. An infinite is wisdom of the God and not imaginable is His intelligence.