Qualitative Analysis Examples in Islam

Objective


This channel is about finding examples of Scientific research, theories, laws and unsolved mysteries and unanswered questions in the light of Quran and Islam and to provide Qualitative analysis or insight.


The conceptual understanding of any concept is a must, and logical to human intuition. There is always a need to explaining the Quran’s teaching according to the time, since scientific concepts in Islam are explained in a generalized or universal way.


In some of the videos, we will dive deeper into the science but without getting into equations, only to draw conceptual understanding from the equations or laws and identify the hints that can lead to better understanding of the underlying wisdom.


By pointing out those conceptual examples and explaining them according to the understanding of the people of the time, the goal is to continuously engage in better understanding of the underlying concepts scientifically.

So Why Qualitative?

It is subjective and harder to analyze data in research, especially for comparison. Example: Quality data represents everything describing taste, experience, texture, or an opinion that is considered quality data. This type of data is usually collected through focus groups, personal interviews, or using open-ended questions in surveys. (For more Details, please checkout --- the following examples:


  1. How to use and assess qualitative research methods

  2. Choosing a Qualitative Research Approach


Bogdan R, Biklen SK. Qualitative Research for Education: An Introduction to Theories and Methods. 5th ed. London, UK: Pearson;; 2006. [Google Scholar]

Entropy, Arrow of Time and Perception of Reality

According to the first law, energy is conserved in a process that takes a system from one state to another

The Second Law of Thermodynamics

Evolution of non-equilibrium systems towards equilibrium is governed by the second law of thermodynamics.

Entropy

The entropy of the universe increases during a spontaneous process. It also increases during an observable non-spontaneous process.


SUniverse = Scold + Shot =qTcold + qThot


Chemical and physical changes in a system may be accompanied by either an increase or a decrease in the disorder of the system, corresponding to an increase in entropy (ΔS > 0) or a decrease in entropy (ΔS < 0), respectively. As with any other state function, the change in entropy is defined as the difference between the entropies of the final and initial states:


S = Sf + Si

Entropy and Arrow of Time:

The increase of disorder or entropy (Rudolf Clausius (1822–1888), originator of the concept of entropy) with time is one example of what is called an arrow of time, something that distinguishes the past from the future, giving a direction to time. Stephen Hawking, A Brief History of Time


Vector of Heart:


Does our understanding or discovery of Second law of Thermodynamics, Entropy and its correlation to the arrow of Time, itself have any impact on the application of these concepts and how they work.


Seems like the Laws of the Universe such as Laws of Thermodynamics, entropy, and other Fundamental Laws of the Universe that defines REALITIES of the Universe, works regardless of our participation to the realities of the Universe.


Make us pretty irrelevant and insignificant to the larger picture of the Universe and its associated realities.