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Fundamentals of Global Warming
Everyone divides ice, water and steam, these three states of water, not because of different conditions but because of different levels of temperature. Ice is cold, water as a liquid is the ideal temperature but water vapor is flammable. This concept explains the difference and role of temperature and the clarity of the concept of warmth. That’s why global warming raises the temperature of the environment or atmospheric substance such as air or mixed gases in the air, and is correctly referred to as global warming. In general, the atmosphere consists of air mixed with many gases that have high kinetic energy that causes molecules to fly in the air.
There are two types of gases in the environment namely gases with unlike atoms like CO2 and gases with like atoms like N2. Gases with different atoms absorb the sun’s rays while gases with the same atoms do not, and the sun’s rays raise the energy level of the molecule very much like a warm welcome will be extended to a few guests in everyday life. One can understand the meaning of warm and familiar welcome. Warmth shows a high level of “personal energy” to receive guests when the host is very active, he may be stressed. Active and hyperactive conveys a high sensitivity to welcome the guest.
A warm welcome, some extras are also given to the guests which is a “symbol of a warm welcome”. The same is true of global warming. Gases that are “polar in nature” such as carbon dioxide (CO2), hydrogen chloride (HCl), nitrous oxide (N2O), water vapor (H2O) “absorb solar radiation” and move to “high kinetic energy regions with high velocity”.
“Diffusion of gases” is accelerating in a world where almost the entire earth is covered with gases. Gases emit or distribute the same amount of energy according to the “Boltzmann energy distribution factor eE/KT”. Thus, the additional addition of “solar radiation from polar gases raises the temperature” of the earth while “non-polar gases such as nitrogen (N2)” and the like do not receive solar radiation. The basic idea of ”electro negativity is the cause” in this process. In the case of N2, both atoms are the same in the indifference of electronegativity and “exchange of electron pair” in any atom but in the case of gases with “different atoms like CO2″, electron negativity plays a key role in ” -shifting. the shared electron pair to a more electronegative atom such as the O atom”.
The change of the electron pair develops “electrical centers with different energy fields” which is referred to as an energy gradient that responds quickly to the energy of the sun, in fact it absorbs the same to balance the energy levels. This is the “fundamental theory of global warming”. Now to reduce global warming, it is possible to raise sinks such as trees that absorb solar energy or to reduce greenhouse gases such as CO2, which are used as raw materials for photosynthesis. Solar energy must be involved in chemical reactions, for example, the energy involved in hydrogen bonds disruption or formation or transformation.
“Food science leads the example” where solar energy is captured to form bonds between gas molecules such as CO2 and water H2O in a pattern of chemical reactions between them such as 6CO2 + 6H2O + sunlight = C6H12O6 + 6O2. This leads to the development of chemical bonds in the form of glucose (C6H12O6) when taken as food is broken down to restore the same energy to restore human survival. Chemical kinetics, thermodynamics, photochemistry, electrochemistry i.e. all chemistry is based on the bond energy. “The measured energy E= hν is the photochemical nature” obtained from sunlight, in the nature of electricity.
Newton’s corpuscular theory was not included and the Danish physicist Niels Henrik David Bohr’s case for angular momentum as an integer multiple of h as n λ= 2πr, gave some solutions. The electron is defined by wavelengths and the total number of wavelengths must be equal to the circumference of the electron’s orbit. Changing the de Broglie wavelength reproduces Bohr’s law. Bohr justified his rule by appealing to the principle of correspondence, without providing an interpretation of the waves.
In 1925, a new type of mechanics was proposed as “quantum mechanics” where Bohr’s electron model moving in quantum orbits was expanded into a more accurate model of electron motion. A new theory was proposed by Werner Heisenberg. Another form of the same theory, modern quantum mechanics, was discovered by the Austrian physicist Erwin Schrödinger independently. Since the chemical process involves both the process of measuring energy and chemical energy. For example, in chemical kinetics, “molecules gain energy” from the medium because the solvent dissolves the solute where it has the same electrical structure as the solvent. For example, water shares an electron pair and can dissolve the salt NaCl or glucose, as these molecules also have the same electronic configuration as water molecules. Glucose has an oxygen atom that has a higher electronegativity compared to C and H.
Water dissolves sugar but not benzene or CCl4. Because the latter do not include highly electromagnetic atoms and have similar atoms attached to C atoms. In the case of benzene the C electron of its ring forms a highly bonded ring and water cannot interact because the electric charge is distributed evenly between the 6 carbon atoms where H = 1/2m(px2+ py2+ pz2)+ V( x ,y,z) energy is uniformly distributed in the circle and energy E= n2(π2h2/8ma2), E= (π2h2/8ma2)(nx2+ ny2+ nz2) is the basic equation of energy distribution and if nx2 =1, ny2 =1, nz2= 1 then E= [π2h2/8ma2](12+ 12+ 12) = E= 3[π2h2/8ma2] The constant energy state in the case of benzene and ccl4 and therefore they do not develop interaction with water but with water the state is different in the coordinates (2,1,1), (1,2,1), (1) ,1,2) and three different power points.
E= (π2h2/8ma2)(22+ 12+ 12), E= (π2h2/8ma2)(4+ 2), E= 6(π2h2/8ma2). IE= 6(π2h2/8ma2) is the degenerate or triple energy state. Thus quantum chemistry provides useful explanations for energy-related solutions. If we look at chemical interactions then the energy taken by the molecules causes an entropic change accompanied by the release of chemical energy or an absorption process based on exothermic and endothermic respectively. For example a drop of concentrated sulfuric acid when mixed with a few mL of water, release energy with increasing temperature. Similarly additions of KNO3 to water absorb energy from it with decreasing temperature. Thus along with the concept of entropy, the concept of enthalpy is important.
Thus S and H are energy transitions in the low energy range and are similar to UV compared to high energy phenomena such as FTIR, NMR, AFM based on E = h ν. Energy absorption by a molecule is different for different lengths of single, double and triple bonds. That is why the energy hypothesis is very visible, dynamic and chemically based on the principle of atoms and molecules to release energy either as fuel for vehicles or food for survival. Of course, the atoms release energy but elsewhere they prevent the same exchange, for example, coating the surface to prevent rusting due to environmental oxygen. In all forms, potential energy is very useful as all conservative energy generates potential energy. As a source function where elastic energy is expressed as elastic energy, gravitational energy as gravitational energy.
“Columbic power” develops strong electrical energy; The nuclear force that acts on the baryon charge is called the “nuclear potential force, the intermolecular force” that produces the potential force between molecules. At the moment there is a problem in producing and using energy in the most sustainable way because the molecules that are thrown into the environment either absorb energy or release similar amounts of unintended consequences. Especially greenhouse gases such as CO2, N2O, HCl, water vapor and CFC’s, volatile organic compounds, flammable compounds must be reduced and the new concept of “Reduce-Reuse-Recycle logic” is extended to solve global warming such as the Survismeter which measures the surface. Stress, interfacial tension, wetting coefficient, surface concentration, viscosity and friccohesity and due to the Reuse and Recycling of that material to other dimensions. Econoburette, an ecofriendly burette, for semi micro titration techniques in chemistry laboratories. It is urgent to develop a way to reduce or to develop other ways to reduce the use of chlorofluorohydrocarbons-CFHC and greenhouse gases.
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