What Is The Formula For The Circumference Of A Circle Fundamentals of Global Warming

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Fundamentals of Global Warming

Everyone distinguishes between ice, water and steam, the three states of water, not because of the different states but because of the different temperature levels. Ice is cold, water is at the optimum temperature as a liquid, but water vapor can burn. This concept explains the difference and role of temperature with the clarity of the concept of warming. Therefore, global warming increases the temperature of the environment or atmospheric substances, such as air or a mixture of gases in the air, and is precisely called global warming. In general, the atmosphere contains air mixed with so many gases with high kinetic energy that cause molecules to fly in the atmosphere.

There are two types of gases in the environment namely gases with different atoms like CO2 and gases with similar atoms like N2. Gases with different atoms absorb solar radiation, while gases with similar atoms do not, and solar radiation raises molecular energy levels much like the warm welcome extended to a few guests in everyday life. One can understand the meaning of warm and casual receptions. Warm means a higher level of “human energy” to receive guests, if the host is very active, can be hyperactive. Active and hyperactive expresses great sensitivity when receiving a guest.

Also as a warm welcome, guests are offered additional items that become a “symbol of a warm welcome”. The same is true for 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 “go to a higher kinetic energy state at a higher rate”. .

A higher rate of “dispersion of gases” occurs globally, where nearly the entire Earth is covered by gases. Gases release or distribute the same energy as the “Boltzmann energy distribution factor eE/KT”. Thus, additional absorption of “solar radiation from polar gases” increases the temperature of the earth, while “non-polar gases such as nitrogen (N2)” and the like do not absorb solar radiation. The main culprit in this process is the basic concept of “electronegativity”. For N2, both atoms are similar with equal electronegativity, with no “net electron pair shift” to either atom, but for gases with “different atoms like CO2,” electronegativity plays a key role in the “shift”. shared electron pair towards a more electronegative atom, such as an O atom.

The shift in the electron pair creates “electrostatic centers of different energy states” called the energy gradient, which quickly respond to solar energy, actually absorbing the same to equalize the energy gradients. This is the “fundamental theory of global warming”. Now there is a way to reduce global warming by raising sinks like trees that absorb solar energy or reducing greenhouse gases like CO2, which is used as a raw material for photosynthesis. Solar energy must be associated with the formation of chemical bonds, such as the energy associated with breaking or forming or changing hydrogen bonds.

“Food science is a leading example” where solar energy is trapped to form bonds between gas molecules such as CO2 and water-H2O according to the chemical reaction between them 6CO2 + 6H2O + sunlight = C6H12O6 + 6O2. This leads to the formation of chemical bonds in the form of glucose (C6H12O6), which when eaten with food breaks down to give back the same energy for the person to survive. Chemical kinetics, thermodynamics, photochemistry, electrochemistry, or all chemistry, have a basis in energetic bonds. “Quantized energy E= hν is photochemical in nature” derived from solar radiation, electromagnetic in nature.

Newton’s corpuscular theory did not fit, and Danish physicist Niels Henrik David Bohr’s condition for angular momentum as an integer multiple of h as n λ= 2πr offered some solutions. An electron is described by a wave, and an integer number of wavelengths must fit around the circumference of the electron’s orbit. Substituting the de Broglie wavelength reproduces Bohr’s law. Bohr justified his rule by appealing to the correspondence principle without offering a wave interpretation.

In 1925, a new type of mechanics was proposed as “quantum mechanics”, in which Bohr’s model of electrons moving in quantized orbits was extended to 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 independently discovered by the Austrian physicist Erwin Schrödinger. Because a chemical process involves both the process of energy quantization and chemical energy. For example, in chemical kinetics, “molecules” gain energy from the environment as solvents dissolve the solute, where it has an electronic structure similar to the solvent. For example, water has a shared electron pair and can dissolve NaCl salt or glucose because these molecules also have a similar electronic configuration to water molecules. Glucose has an oxygen atom that has a higher electronegativity than C and H.

Water dissolves glucose but not benzene or CCl4. Because the latter do not consist of strongly electromagnetic atoms and also have similar atoms bound to C atoms. In the case of benzene, the C electron in this ring forms a strongly integrated delocalized ring and water cannot interact because the electronic charge is equally distributed among the 6 carbon atoms, where the energy of H = 1/2m(px2+ py2+ pz2)+ V( x,y,z) is equally integrated into the ring and energy E= n2(π2h2/8ma2), E= (π2h2/8ma2)(nx2+ ny2+ nz2) is the basic equation of energy distribution and if nx2 =1 then ny2 =1, nz2=1 then E= [π2h2/8ma2](12+ 12+ 12) = E= 3[π2h2/8ma2] which is a non-degenerate energy state for benzene and ccl4 and therefore they do not interact with water, but with water the situation is different with coordinates (2,1,1), (1,2,1), (1 ,1,2) and three different energy state.

E= (π2h2/8ma2)(22+ 12+ 12), E= (π2h2/8ma2)(4+ 2), E= 6(π2h2/8ma2). E=6 (π2h2/8ma2) is a triple degenerate or triple energy state. Thus, quantum chemistry provides useful explanations for energy-related solutions. When we look at chemical interactions, the consumption of energy by molecules triggers entropic changes, which are accompanied by the release or absorption of chemical energy, respectively, based on exothermic and endothermic processes. For example, a drop of concentrated sulfuric acid when mixed with a few ml of water releases energy as the temperature rises. Similarly, additions of KNO3 to water absorb energy from it as the temperature drops. Thus, next to the concept of entropy, the concept of enthalpy is important.

Thus, the energy changes of S and H are in the low energy range and are similar to UV compared to higher energy phenomena such as FTIR, NMR, AFM based on E = h ν. The energy absorption of a molecule is different with different lengths of single, double and triple bonds. Thus, the most visible, viable and chemically transferable energy hypothesis is based on the composition of atoms and molecules to release energy either in vehicle fuels or in food for survival. Naturally, the molecules release energy, but somewhere they prevent its exchange, for example by coating surfaces to prevent rusting due to the oxidation of oxygen in the environment. Of all the forms, potential energy is the most useful because every conservative force produces potential energy. Like the work of a spring, where elastic force is represented as elastic potential energy, gravitational force as gravitational potential energy.

“Columbian force” develops electrical potential energy; the nuclear force acting on a baryon charge is called “nuclear potential energy, intermolecular forces” generate intermolecular potential energy. Currently, there is a crisis for the production and use of energy in the most environmentally friendly way, because the molecules released into the environment either absorb energy or release the same number of side effects. In particular, greenhouse gases such as CO2, N2O, HCl, water vapor and CFCs, VOCs and flammable compounds must be minimized, and the new concept of “Reduce, Recycle and Recycle” must be popularized to solve the problem of global warming, such as Survismeter, which measures the surface. Stress, Interfacial tension, Wetting coefficient, Surface excess concentration, Viscosity and Friccohesity together due to reuse and recycling of the same material to other measurements. Econoburette, environmentally friendly burette, for semi-microtitration technique in chemical laboratories. There is an urgent need to develop a mechanism to either minimize or develop alternative ways to reduce the use of CFCs and GHGs.

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