MOST IMPORTANT QUESTIONS today

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Meaningful research or even any thought process must have a real question. Real because it is relevant and it is purposeful, without having an agenda other than finding the truth.

The following series of research questions are based on a fundamentally sound premise. The fundamental premise is that natural processes are inherently beneficial to the environment whereas artificial processes are inherently harmful. The challenge is to describe the natural processes during interactions with living bodies. Today, chemistry as well as physics are very deficient when it comes to describing the pathways of natural chemicals with living bodies. Here I'll describe four applications with key questions to answer.

1. Atomic theory:

By now we know atoms or any of the subatomic particles is anything but rigid, homogeneous, isotropic, or even of any known geometrical configuration. We also know that the subatomic orbits are mere speculation and definitely not constant or permanent. In fact, subatomic structure is much like a galaxy with its own ‘star’, ‘planet’, ‘moon’, ‘asteroid’, ‘comet’ system. By analogy, we can say that smaller the particle greater is the speed and for the entire system, we do not know anything about the direction of the movement, what we know that each has its own trajectory. We also know that these trajectories are NOT orbits, at no time a particle comes back to the same location in space. It’s not only because the entire ‘galaxy’ is moving, it is because each orbit is never uniform. The question becomes how to describe a natural material as compared to an artificial material with the above described galaxy model.

2. Medical and Pharmaceutical: 

Consider interactions of natural radioactive and other heavy metal rich material (e.g. during mudbath) with human body through skin and inside. How does this compare with chemotherapy that uses synthetic chemicals to combat cancer cells. Our theory establishes that this natural process is inherently beneficial in combatting ailment such as cancer without any side effect, which is common for chemotherapy. The research question can be answered with a thorough explanation of the pathway followed by natural chemicals and tracking reaction of the human body. The fundamental science here has to be through writing of chemical equations that do NOT use elemental balance but uses material balance. For instance, natural + human body (natural) --> natural metabolic products. Here the knowledge of catalyst chemistry is helpful, meaning very small amounts that create balance within a natural system creates the metabolic products that are balanced and beneficial.

Similarly, other organic chemicals will have to be studied. For instance, how vitamin C (ascorbic acid) interacts with human body and how lemon juice interacts with human body. Then, you have to see how an organic lemon (without chemical fertilizer or pesticide or GMO) would interact with the human bodies. Once again, the challenge is to show that unnatural (vit C) + human body (organic) --> unnatural metabolic products (harmful). The chemistry of this process has to be developed and that's why it needs fundamentally creative thinking.

In studying remedy of any ailment, conventional approach has been to test a chemical (isolated from natural products or artificially created), to later mass produce the synthetic version of the ‘medicine’. Even so-called alternate medicine researchers have adopted the same technique, in which they use isolated ingredients. This latter approach is not any better than the conventional synthetic chemical approach. It is because isolated ingredients become inherently unnatural and any such chemical does not behave the same way as the one produced after being processed by a human body. Ironically, it is not the same for synthetic chemicals, as human body fails to process artificial chemicals and they retain their original inherently ‘toxic’ nature.

So, what’s the solution? When one studies natural chemicals, one must first study how these chemicals are processed in human body and then study those processed chemicals to determine if they will create an environment in which defective cells will be destroyed.

Another question is how to transport natural chemicals in human body. For instance, instead of having a synthetic inhaler (for asthma), how a natural chemical can be made into mists and what role does this play in remedying ailment (asthma attack in this case). See also under the next category, namely perfume.

3. Perfume:

Here the challenge is distinguish between different flower extracts that are derived through solvent extraction, vapor extraction, etc. and see the difference in quality of the perfume and how they interact with human bodies, both in terms of fragrance and health. Here, once again, knowledge of catalytic chemistry is helpful.In this research, the objective is to see how the extraction process affects the final reaction in human bodies. Here the study should involve interactions with human body skin and subsequent processing within the blood cells. To be considered are such factors as human body pH, characteristic temperature, and overall lifestyle and mental state. This study will in turn help with medical applications, including aromatherapy.

4. Energy:

In petroleum engineering, the need for using natural chemicals for petroleum processing as well as enhanced oil recovery is very high. Not only these materials are inexpensive, they are also beneficial. When these chemicals are replaced with artificial chemicals, the resulting products are harmful and are also expensive. As discussed in my book on climate change, these chemicals end up in the atmosphere and contributes to the global warming system, in which CO2 cannot be absorbed by the ecosystem. The challenge in this part is to find natural chemicals that will reduce oil viscosity and/or absorb heavier components in order to naturally refine the crude oil. Such chemicals can be present naturally or may be extracted from plants, especially from weed like plants that are not expensive to cultivate.

This aspect is discussed in detail in my upcoming book: Economically and Environmentally Sustainable Enhanced Oil Recovery.This is a long form text area designed for your content that you can fill up with as many words as your heart desires. You can write articles, long mission statements, company policies, executive profiles, company awards/distinctions, office locations, shareholder reports, whitepapers, media mentions and other pieces of content that don’t fit into a shorter, more succinct space.

Articles – Good topics for articles include anything related to your company – recent changes to operations, the latest company softball game – or the industry you’re in. General business trends (think national and even international) are great article fodder, too.

Mission statements – You can tell a lot about a company by its mission statement. Don’t have one? Now might be a good time to create one and post it here. A good mission statement tells you what drives a company to do what it does.

Company policies – Are there company policies that are particularly important to your business? Perhaps your unlimited paternity/maternity leave policy has endeared you to employees across the company. This is a good place to talk about that.

Executive profiles – A company is only as strong as its executive leadership. This is a good place to show off who’s occupying the corner offices. Write a nice bio about each executive that includes what they do, how long they’ve been at it, and what got them to where they are.