Greenhouse Effect and Quantum Physics.

 

Greenhouse Effect and Quantum Physics.

 

Author; Rogelio Perez C

Summary;

The science of greenhouse effect does not take into account the kinetic energy of classical physics, which explains heat and temperature. it tells us that is has a focus on quantum physics, when this physics is designed for phenomena on very small scales, which disappear to large scales, so applying this approach to explain the temperature of the planet is completely false, not only because its effects disappear on the large scale, but because classical physics is very clear and simple with respect to the temperature of gaseous systems like the atmosphere.

 

Introduction;

Quantum physics brings together a set of theories that explain how fundamental particles behave, that is, the smallest of all and even smaller than atoms, such as electrons.

Quantum superposition principle and Schrödinger's cat.

In 1935, Erwin Schrödinger proposed an experiment in which a cat was introduced into a box along with radioactive material with a 50 percent probability of a subatomic particle being emitted that if it were to disintegrate it would release a poison that would kill the cat.

Common sense, represented in this story as classical or Newtonian physics, tells us that if the box is closed the cat has a chance between two: either it is alive or dead, or to discover it is necessary to open the box.

But quantum mechanics work differently. On a subatomic scale we cannot talk about the atom having released a deadly particle or not, but that emitted and has not done so at the same time.

This way the fate of the cat is connected to the particle and is dead and alive at the same time.

In this way the fate of the cat is connected to the particle and is dead and alive at the same time.

Quantum behavior disappears on a scale as large as that of a cat, which has trillions of atoms. But quantum physics shows that an atom can be in two places at once or that an electron can rotate clockwise and on the contrary at the same time.1

The greenhouse effect theory

The greenhouse effect is a process in which thermal radiation emitted by the planetary surface is absorbed by atmospheric greenhouse gases (GHGs) and radiated in all directions. As part of this radiation is returned to the Earth's surface and lower atmosphere.1

Greenhouse effect theory 1

 

https://climate.nasa.gov/causes/

Kinetic theory

The kinetic theory of gases is a physical and chemical theory that explains the macroscopic behavior and properties of gases (the law of ideal gases), based on a statistical description of microscopic molecular processes. The kinetic theory was developed based on studies by physicists such as Daniel Bernoulli in the 18th century, Ludwig Boltzmann and James Clerk Maxwell in the late 19th century.3

Charles law for gases, for any gas, the ratio between temperature and volume is directly proportional, if the quantity of gas and pressure remain constant.

Mathematically we can express it like this:

 

Where;

V is the volume

T is the absolute temperature (i.e measured in kelvin).

k is the constant of proportionality.4

Heat, q, is thermal energy transferred from a hotter system to a cooler system that are in contact.

Temperature is a measure of the average kinetic energy of the atoms or molecules in the system.

The zeroth law of thermodynamics says that no heat is transferred between two objects in thermal equilibrium; therefore, they are the same temperature.5

We can calculate the heat released or absorbed using the specific heat capacity C, the mass of the substance, m, and the change in temperature, ΔT in the equation:     q=m×C×ΔT

Heat and temperature are two different but closely related concepts. Note that they have different units: temperature typically has units of degrees Celsius (degreesC,) or Kelvin (K), and heat has units of energy, Joules (J).

Temperature is a measure of the average kinetic energy of the atoms or molecules in the system. The water molecules in a cup of hot coffee have a higher average kinetic energy than the water molecules in a cup of iced tea, which also means they are moving at a higher velocity.6

Conclusion;

Science as kinetic physics explains perfectly physically, chemically the heat and temperature of gaseous systems. Using another science, such as quantum physics, which does not address this effect at a macro level, in order to violate all the physical principles of classical physics, is a false explanation, until quantum physics explains this phenomenon at a macro level, and we can find a new way of measuring temperature, different from how kinetic science explains it.

As the effects of quantum physics disappear on large scales, we can say that any solution of quantum physics, on the real world or on large scales, in this case the temperature of the planet, is false or do not work.

In the case of climate change, which is a much larger scale than a cat, we can say that quantum behavior is false because they disappear.

But if these effects of quantum mechanics on a macro level did not disappear, we could come to the illogical conclusion that things exist and do not exist at the same time.

Then based on quantum physics that scientists predict of the greenhouse effect, it is that climate change exists and does not exist at the same time

In other words based on quantum physics, deniers have the same reason as climate alarmists.

Bibliography;

1-https://computerhoy.com/noticias/life/que-es-fisica-cuantica-36141

2- Intergovernmental Panel on Climate Change. Consultado el 15 de octubre de 2010.

 A concise description of the greenhouse effect is given in the Intergovernmental Panel on Climate Change Fourth Assessment Report, "What is the Greenhouse Effect?" FAQ 1.3 - AR4 WGI Chapter 1: Historical Overview of Climate Change Science, IIPCC Fourth Assessment Report, Chapter 1, page

 

3- Maxwell, J. C. (1867). "On the Dynamical Theory of Gases". Philosophical Transactions of the Royal Society of London 157: 49

 

4. http://www.educaplus.org/gases/ley_charles.html

 

5-https://www.khanacademy.org/science/chemistry/thermodynamics-chemistry/internal-energy-sal/a/heat

 

6-https://www.khanacademy.org/science/chemistry/thermodynamics-chemistry/internal-energy-sal/a/heat