Publication meta - Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzene Para-dichlorobenzene (p-DCB) is widely used as a chemical intermediate in manufacturing of dyes, pharmaceuticals, polymers and other organic synthesis. The aim of present study was to evaluate the impact of biofield treatment on physical, thermal, and spectroscopic properties of p-dichlorobenzene. The p-dichlorobenzene sample was divided into two groups that served as treated and control.
Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzene Research Artilce Open Access Biochemistry & Analytical Biochemistry i o c h e m s t r y n a l Trivedi et al., Biochem Anal Biochem 2015, 4:4 Volume 4 • Issue 4 • 1000204 Biochem Anal Biochem ISSN: 2161-1009 Biochem, an open access journal Keywords: Bioeld treatment; Para-dichlorobenzene; X-ray diraction study; Dierential scanning calorimetry; ermogravimetric analysis; and UV-Visible spectroscopy Introduction Chlorobenzenes are the colourless liquid with an almond-like odour. of those chemicals which are produced industrially in large amounts. ey have many applications, such as intermediate products of the chemical and pharmaceutical industries and as biocides and additives [1]. catalysts produce ortho and para-Dichlorobenzene isomers. p-DCB results from chlorination of chlorobenzene and have wide applications. 1,4-Dichlorobenzene (p-DCB; formula: C6H4Cl2) is a colourless solid having strong odour. crops and air deodorizer [2]. of mothballs in place of naphthalene. p
"Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dich" by Mahendra Kumar Trivedi Abstract Para-dichlorobenzene (p-DCB) is widely used as a chemical intermediate in manufacturing of dyes, pharmaceuticals, polymers and other organic synthesis. The aim of present study was to evaluate the impact of biofield treatment on physical, thermal, and spectroscopic properties of p-dichlorobenzene. The p-dichlorobenzene sample was divided into two groups that served as treated and control. The treated group received Mr. Citation Information Mahendra Kumar Trivedi.
Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzene You are using an outdated version of Firefox which is not supported by ResearchGate anymore. For a faster, safer browsing experience, upgrade your browser now. <div class="c-box-warning full-width-element" style="text-align: center; "><div style="margin: auto; padding:10px;" class="container"><b>For full functionality of ResearchGate it is necessary to enable JavaScript. Here are the <a href=" rel="nofollow" target="_blank"> instructions how to enable JavaScript in your web browser</a>.</b></div></div> Article Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzene Analytical Biochemistry (Impact Factor: 2.22). 08/2015; 4(4). Para-dichlorobenzene (p-DCB) is widely used as a chemical intermediate in manufacturing of dyes, pharmaceuticals, polymers and other organic synthesis. [more] Figures in this publication 0 Followers 155 Reads Book: Benzodiazepines: Advances in Research and Application Q. Similar Publications View Available from
Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzene *The embed functionality can only be used for non commercial purposes. In order to maintain its sustainability, all mass use of content by commercial or not for profit companies must be done in agreement with figshare. Description Para-dichlorobenzene (p-DCB) is widely used as a chemical intermediate in manufacturing of dyes, pharmaceuticals, polymers and other organic synthesis. Comments (0) Published on 15 Nov 2015 - 10:03 (GMT) Filesize is 940.64 KB License (what's this?) Cite "Filename" Place your mouse over the citation text to select it Embed "Physical, Thermal and Spectroscopic Studies on Biofield Treated p-Dichlorobenzene" Show filename on top Place your mouse over the embed code to select and copy it
Mahendra Trivedi | Independent Researcher | Las Vegas Summary Mahendra Trivedi earned his 5-year Bachelor’s degree in Mechanical Engineering in 1985 and worked as an Engineer for 10 years. In 1995, Mr. Trivedi discovered that he had the unique ability to harness the energy from the universe and transmit it to anywhere on the globe, infusing it into living organisms and nonliving materials, thus optimizing their potential. For the next 5-7 years, Trivedi applied this newfound discovery to helping people optimize their potential, and this unique phenomenon resulting from Mr. Trivedi’s biofield energy treatments became internationally renown as The Trivedi Effect®. Although Mr. Mahendra Trivedi’s work within the international scientific community is extensive and ongoing. Mr. Presently, Mahendra Kumar Trivedi has designed various Human “Trivedi Master Wellness” Programs in which thousands of people have reported results that are often described as “miraculous” and “life-changing.” -- Dr. Mr. You can read more about Mr. 1). 2). 3). 4). 5). 6).
Mahendra Trivedi Mahendra Kumar Trivedi earned his 5-year Bachelor’s degree in Mechanical Engineering in 1985 and worked as an Engineer for 10 years. In 1995, Mr. Trivedi discovered that he had the unique ability to harness the energy from the universe and transmit it to anywhere on the globe, infusing it into living organisms and nonliving materials, thus optimizing their potential. For the next 5-7 years, Trivedi applied this newfound discovery to helping people optimize their potential, and this unique phenomenon resulting from Mr. Although Mr. He amassed a collection of over 4,000 scientific studies in many life sciences and material sciences, including: agriculture, livestock, biotechnology, microbiology, materials science, genetics, cancer and human health and has several dozens of publications in leading international peer-reviewed scientific journals, all in support to the dramatic results reported through human testimonials, thus excluding the possibility of the placebo effect. Mr. Mr. 1).
Mahendra Trivedi Mahendra Kumar Trivedi Mahendra Kumar Trivedi completed his 5-year Bachelor’s degree in Mechanical Engineering in 1985 and had worked as an Engineer for 10 years. In 1995, Mr. Trivedi discovered has the unique ability to harness the energy from the universe and transmit it to anywhere on the globe, infusing it into living organisms and nonliving materials, thus optimizing their potential. For the next 5-7 years, Trivedi applied this newfound discovery to helping people optimize their potential, and this unique phenomenon resulting from Mr. Trivedi’s biofield energy treatments became internationally renown as The Trivedi Effect®. Although Mr.
..:: Ommega ::.. | Effect of a Biofield Treatment on Plant Growth and Adaptation Scientific methodologies were developed in order to focus on objective, reproducible phenomena, with strategies being based on the idea that material energies were distinct from biofield ones and could therefore be investigated independently. Descartes in the 17th century was one of the first to formalize these ideas, during an era of strong pressures against scientific freedoms. They led to the development of a great deal of valuable technology able to transcend cultural differences and address major problems, providing well-defined solutions, which work reliably under the defined conditions. As the closeness of structure and function was increasingly demonstrated, there were further adjustments in this postulate, while quantum mechanics was developed when human consciousness was found to influence results at the level of elementary particles. An information bearing intentional biofield energy of this kind may be expected to have more meaningful impact on biological samples. Results
Epernicus: Mahendra Kumar Trivedi, B. Tech. Research: Mahendra Kumar Trivedi earned his 5-year Bachelor’s degree in Mechanical Engineering in 1985 and worked as an Engineer for 10 years. In 1995, Mr. Trivedi discovered that he had the unique ability to harness the energy from the universe and transmit it to anywhere on the globe, infusing it into living organisms and nonliving materials, thus optimizing their potential. For the next 5-7 years, Trivedi applied this newfound discovery to helping people optimize their potential, and this unique phenomenon resulting from Mr. Trivedi’s biofield energy treatments became internationally renowned as The Trivedi Effect®.
Spectral and Thermal Properties of Biofield Energy Treated Cotton :: Science Publishing Group American Journal of Energy Engineering Volume 3, Issue 6, November 2015, Pages: 86-92 Received: Oct. 7, 2015; Accepted: Oct. 19, 2015; Published: Nov. 16, 2015 DOI: 10.11648/j.ajee.20150306.12 Views 97 Downloads 6 Authors Mahendra Kumar Trivedi, Trivedi Global Inc., Henderson, USA Rama Mohan Tallapragada, Trivedi Global Inc., Henderson, USA Alice Branton, Trivedi Global Inc., Henderson, USA Dahryn Trivedi, Trivedi Global Inc., Henderson, USA Gopal Nayak, Trivedi Global Inc., Henderson, USA Rakesh Kumar Mishra, Trivedi Science Research Laboratory Pvt. Snehasis Jana, Trivedi Science Research Laboratory Pvt. Abstract Cotton has widespread applications in textile industries due its interesting physicochemical properties. Cotton, Biofield Energy Treatment, Thermal Analysis, Fourier Transform Infrared Spectroscopy, CHNSO Analysis True AC (1896). Yafa S (2002) Cotton: The Biography of a Revolutionary Fiber. Bailey AE (1948) Cottonseed and cottonseed products.
Evaluation of Bio-field Treatment on Physical and Structural Properties of Bronze Powder Title: Evaluation of Bio-field Treatment on Physical and Structural Properties of Bronze Powder Updated: November 15th, 2015 Abstract: Bronze, a copper-tin alloy, widely utilizing in manufacturing of gears, bearing, and packing technologies due to its versatile physical, mechanical, and chemical properties. Evaluation of Bio-field Treatment on Physical and Structural Properties of Bronze Powder Volume 4 • Issue 1 • 1000119 Adv Automob Engg ISSN:2167-7670 AAE, an open access journal Open Access Research Article Advances in Automobile Engineering Trivedi et al., Adv Automob Eng 2015, 4:1 Keywords: Bioeld treatment; Bronze; X-ray diraction; FT-IR; Particle size; SEM Introduction Bronze is a metallic alloy, primarily consist of copper and tin in 90:10 ratio, which is also known as “true bronze”. such as arsenic, phosphorus, aluminium, manganese, and silicon are also blended in bronze to enhance its mechanical properties [1,2]. variation in elemental composition in bronze signicantly aects its mechanical and chemical characteristics [3]. primarily exist in FCC (face centred cubic) crystal structure, and the dierent size of the tin atoms as compared to copper substantially changes this structure, which confers excellent properties. reported that lattice parameter of FCC bronze unit cell increases with increase in tin content and vice versa [4]. etc.