Revisionary Ghana & Africa , livre ebook

Xlibris US - Dr. David Nana Ofori Jr.

Découvre YouScribe en t'inscrivant gratuitement

Je m'inscris

Obtenez un accès à la bibliothèque pour le consulter en ligne
En savoir plus

92 pages

English

Vous pourrez modifier la taille du texte de cet ouvrage

Obtenez un accès à la bibliothèque pour le consulter en ligne
En savoir plus

A propos
Informations
Extrait

Description

No About the Book information at this time.

Sujets

Nature

Informations

Publié par	Xlibris US
Date de parution	08 juin 2023
Nombre de lectures	0
EAN13	9781669872429
Langue	English
Poids de l'ouvrage	2 Mo

Informations légales : prix de location à la page 0,0200€. Cette information est donnée uniquement à titre indicatif conformément à la législation en vigueur.

Extrait

REVISIONARY GHANA & AFRICA

FROM GOLD TO BREAD

Dr. David Nana Ofori, Jr.

Copyright © 2023 by Dr. David Nana Ofori, Jr.

ISBN:
Softcover
978-1-6698-7241-2
eBook
978-1-6698-7242-9

All rights reserved. No part of this book may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or by any information storage and retrieval system, without permission in writing from the copyright owner.

Any people depicted in stock imagery provided by Getty Images are models, and such images are being used for illustrative purposes only.
Certain stock imagery © Getty Images.

Rev. date: 05/24/2023

Xlibris
844-714-8691
www.Xlibris.com
549939

Contents
Foreword
Mineral Overview
Ghana: From Gold to Bread - Conclusion
References

Foreword
With a background in physics (crystallography), geophysics (mineral and petroleum exploration), seismology, and disaster management, I can relate to every concern raised in this thrilling analysis of the resources of nations around the world from Russia, Australia, Afghanistan, Brazil, China to the Pacific Islands, North and South America, through the Caribbean, and Africa. While in much of the rest of the world, there is some value addition to mineral exploitation, in the developing world, and Africa in particular, the raw minerals are simply shipped away with very minimal returns to the resource owners who then have to purchase the finished products of these minerals at prices that are often several hundred times the price that the mining companies pay for the raw materials.
Additionally, minerals like bauxite have associated by-products—the silicates: gibbsite, boehmite, and diaspore, the two oxides of iron: goethite and hematite; and the clay mineral kaolinite, as well as small amounts of anatase and ilmenite. These could potentially provide employment avenues and taxes for the African bauxite exporting countries if the bauxite were to be processed in the areas where they are mined.
Ghana, for instance, has been ninth in the world and is the largest producer of gold in Africa, overtaking South Africa since 2019. The country has been mining gold for more than five centuries and, yet, still does the barest minimum in terms of processing the mineral. Sadly, much of the current production is done through the environmentally very destructive open cast mining process, which has been banned for decades in the countries from which the miners of the new gold rush troop to Ghana.
Historically, there have been several instances of foreigners siphoning off Africa’s riches. Today, there is a new rush for Africa’s mineral resources, this time, facilitated by unaccountable African officials and corporations, and Ghana has not been an exception to this sad story. The result is the persistence of grinding poverty in areas that are blessed with resources, many of which have been detailed by Dr. Ofori in this book.
Dr. David Ofori has spent over two decades in pioneering work in healthcare, including pediatrics, geriatric, cardiac, sports medicine and rehabilitation, and mobile health management. He designed to uplift the marginalized, deprived, and impoverished communities in the United States of America, winning several awards and acknowledgments in the process.
It is his professional acquaintance with deprivation that moved David into taking post-graduate doctoral studies to become an occupational/industrial health and safety engineer. Furthermore, Dr. Ofori pursued his interests in researching mineral resources around the world and the effects they could potentially have on the disadvantaged in the developing countries of the world and Africa with special emphasis on his own native Ghana.
The healthcare provider, a presbyter and a former moderator of the Presbytery of New York City that he is, his very extensive research into the mineral occurrence, concentration, exploitation, and processing—the diagnosis, so to speak—is followed by prescriptions of solutions (treatments) of the problems. And as often happens in medicine, some of the prescribed treatments are not pleasant. However, a surgeon must, by necessity, go through incisions and cutting to remove deceased body parts in order to make the patient better.
With particular reference to Ghana, this has been a very brave exercise by Dr. Ofori, as it goes against the normal practice, knowing that much of what he has to say goes against traditional wisdom, especially since individuals with familial links may be affected because of current vocations and the positions they hold in higher echelons of society.
However, the prescribed treatments, though painful, are not only designed to save Ghana by way of job creation, foreign income generation, and taxes but will also empower numerous countries on the African continent and beyond, taking them to the commanding heights of their mineral industries, and make them benefit their wider societies and impoverished communities. The establishment of primary and, in some cases, secondary processing plants in deprived communities will help provide jobs in those communities, stem the unbridled urbanization, and minimize the proliferation of social vices in those potentially rich but deprived communities.
Ghana has huge deposits of gold, diamond, manganese, and bauxite, as well as untapped quantities of iron ore, limestone, brown clay, kaolin, mica, feldspar, silica sand, quartz, salt, lithium, etc. Ilmenite, magnetite, rutile, and other rare earth minerals.
Like many African countries, Ghana’s Fourth Republican Constitution invests so much power in the executive, thus making it easy for the president to literally override Parliament in the appointment of oversight institutions, particularly with respect to the mineral resources of the country. Strong, democratic, and independent institutions are required to revamp the regulatory institutions of the country to make it derive more benefits for its citizens and create employment for the teeming unemployed youth, many of whom have, in desperation, taken to traveling outside the country through unorthodox, often dangerous, routes to what many wrongly believe to be greener pastures.
It is these challenges that Dr. Ofori confronts headlong in this very radical and highly recommended exposition of the ills of the mineral industry in Africa and Ghana in particular, while prescribing solutions with the eye of a clinician.
Dr. A Ofori Quaah
Author of My Footprints in Ghana’s Black Gold

Mineral Overview

What Is Mineral?
Minerals are crystalline solids in the natural state that can then be mixed into one or more components (i.e., chemical compounds and elements). Gold, silver, and carbon contain natural mineral elements by themselves. These are also known as indigenous components. Usual cuisine salts are indeed a chemical substance called rock salt, a sodium and chlorine ion mineral. Atoms, ions, and molecules forming a mineral will be in the domain smoothly according to well-defined geometric patterns called a crystal lattice. The sequence and pattern of combining particles in nature determine how a mineral will laminate or exfoliate. Lamination is the phenomenon that certain materials must split into under their regular lattice (geometrical lattice). It also specifies the crystal structure and composition to the shade of crystal such as topaz gold, ruby red, and amethyst quartz violet. The strength, that is, their scratching resistance, is yet another feature of minerals. Hardness is ranked as per the Mohs hardness scale 1 by numeric quantities (from 1 to 10). At the start of the scale, very soft minerals, including talc, chalk, and calcite can be scrapped with a nail, and at the other end, the scale indicates diamond, which is really the well-known hardest mineral.
Mineral Criteria as per International Mineralogical Association
The International Mineralogical Association (IMA) established specific features for the material to be regarded as minerals (Nickel, 1995).
➢ It essentially should be a natural product that is created in the universe and in other interplanetary entities through natural formations. This includes compounds specifically and exclusively produced from human (anthropogenic) or living (biogenic) practices, such as tungsten carbide, urinary calculi, cell, and tissue oxalate crystals and beads. Substances with such sources can, therefore, apply if they are affected by natural formations as in the case of evenkite, derived from plant material, or taranakite, from bat guano, or alpersite, from mine tailings. And in presently inaccessible natural settings like the heart of the Earth or other worlds, hypothesized contaminants are often removed (Nickel, 1995).
➢ Through its common occurrence, that must be a crystalline lattice. One big exception is indigenous mercury, which is still graded as an IMA mineral even though it is only less than −39 °C since it was found before the establishment of the existing classification. Water and carbon dioxide, since they are sometimes included in other minerals, are not regarded as minerals; however, water as ice is regarded as minerals (Hazen, 2012).
➢ The atomic arrangements must be well established in the crystalline orientation. This function includes many physical thermal characteristics, for example, crystal-form, hardness, and cleavage. It excludes ozocerite, limonite, and granite content, as well as several other porous (non-crystalline) (Dyar, 2008).
➢ T