With the scope of a philosopher and the precision of a scientist, Dr. Ahmed takes us on a journey through the labyrinth of Islamic history offering unique insights into its own internal dialectic as well as its interactions with Western civilization. Using pivotal personalities and critical events as guideposts, he has brought forth the complex interplay of political, social, economic, spiritual and religious currents within the large and diverse Muslim world and their interconnections with global developments. It is a book for the layman, the historian, the pundit and the policy maker alike at a time when Islam takes roots in America and as it becomes a major force in shaping the destiny of man. Dr. Ahmed has used his clarity of thought and his lucid prose to convey the meaning of the Muslim experience in history. Those who are interested in getting new perspectives and insights from the emerging community of Muslim intellectuals in the West can find much food for thought in this book. Professor Sulayman S. Nyang, Ph.D., Department of African Studies, Howard University, Washington, D.C. Legislator, scientist, educator, and community leader, Dr. Nazeer Ahmed is Executive Director of the American Institute of Islamic History and Culture based in California. After his graduation with distinction from the University of Mysore, India, he entered the California Institute of Technology as an Institute Scholar (1961) where he earned MS and Ae. E. degrees. Later, he received a Doctor of Philosophy degree (1967) from Cornell University and an MBA from Rider University. Dr. Ahmed was an elected Member of the Legislative Assembly in Bangalore, India (1978). He was an elected delegate to the Democratic National Convention in Atlanta, GA (1988) from the 46th Congressional district in California. He is an inventor and holds fourteen United States Patents. His articles have appeared in the Los Angeles Times and he has conducted extensive lecture tours in the United States, India and Malaysia, speaking on history, science and culture.
Nanofertilizers and nanopesticides increase crop efficiency because of a several-fold increase in the surface-to-volume ratio of nano-forms of nutrients and their suitability to foliar application. The potential agricultural benefits of these nanomaterials, their modes of action, and the fate of nanomaterials in the soil are all discussed. This book uses a multidisciplinary approach and highlights the expertise of the authors in the fields of materials science, nanotechnology, nanobiosensors, and agricultural research. It describes the details of nanoscale synthesis of materials for targeted delivery; in vitro, in vivo, and field trials experimentation; how to use digital technology for specific solutions including Big Data to create predictive mathematical modelling; along with the core knowledge of plant systems and their biosphere to improve crop yields. Also, the book discusses future perspectives and challenges of nanomaterials in agricultural applications. In summary, this book discusses agricultural nanobiotechnology with its main emphasis on understanding the interactions of nanoscale materials of pesticides and fertilizers. It also covers their application to improve the quality and increase crop yield with a minimum use of the active ingredients attached to the nanocarriers.
Musmad, An Orphan, Spends His Life Wandering Over Hills And Sitting Near The Riverside When, One Day, His Eyes Fall On Fairynelo. She, However, Is Unaware Of His Affection And Gets Married To Iranzir. When Musmad Sees Her Leaving Her Parental Home In The Car With Her Husband Iranzir, Musmad, Completely Heartbroken, Runs After The Car For Some Distance And Then Drops On The Ground, Wailing, She Turned; I Saw Her Turning. All Of A Sudden, The Story Takes A New Twist, Causing An Upheaval In The Lives Of The Key Protagonists. New Characters Emerge On The Scene, While The Constant Refrain In This Tragic Tale Depicting The Pain Of Unrequited Love Is She Turned. I Saw Her Turning.
The development of legume use in agricultural production in the tropics lags far behind the temperate areas and extensive research over recent decades has aimed to rectify the lack of available leguminous fodder species available for heavy clay soils. This book draws together that research and explores the importance of heavy clay soils to agricultural productivity in the tropics and subtropics and the identification of adapted, productive forage legumes for these environments. Providing an invaluable example of how a global search for adapted and productive forage germplasm has been - and can be - undertaken, and allowing access to a significant body of knowledge that was acquired before the digitalization of reports, this book will be a key resource for new scientists and experienced researchers in the areas of agriculture and forage agronomy.
Nanofertilizers and nanopesticides increase crop efficiency because of a several-fold increase in the surface-to-volume ratio of nano-forms of nutrients and their suitability to foliar application. The potential agricultural benefits of these nanomaterials, their modes of action, and the fate of nanomaterials in the soil are all discussed. This book uses a multidisciplinary approach and highlights the expertise of the authors in the fields of materials science, nanotechnology, nanobiosensors, and agricultural research. It describes the details of nanoscale synthesis of materials for targeted delivery; in vitro, in vivo, and field trials experimentation; how to use digital technology for specific solutions including Big Data to create predictive mathematical modelling; along with the core knowledge of plant systems and their biosphere to improve crop yields. Also, the book discusses future perspectives and challenges of nanomaterials in agricultural applications. In summary, this book discusses agricultural nanobiotechnology with its main emphasis on understanding the interactions of nanoscale materials of pesticides and fertilizers. It also covers their application to improve the quality and increase crop yield with a minimum use of the active ingredients attached to the nanocarriers.
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