Pharmacognostical and Phytophysicochemical investigations of Trigonella foenum – graecum Linn

Fenugreek (Trigonella foenum-graecum L.), plant is distributed throughout the world and which belongs to the family Fabacecae. The fenugreek seed contains active constituents such as Carbohydrates, Proteins, Alkaloids, Flavonoids, Free amino acids, Saponins, Glycosides, Vitamins, Minerals, Mucilage, Fixed Oils & Volatile Oils etc. It has been commonly used as a traditional food and medicine. Fenugreek is known to have hypoglycemic, and hypocholesterolaemic effects, Anti-inflammatory effects. Fenugreek has potential for curing diseases and also as a source for preparing raw materials of pharmaceutical industry like in steroidal hormones. This review gives view mainly on the Morphological evaluation, Microscopic evaluation, Physicochemical evaluation, Fluorescence Analysis and Phytochemical  evaluation. Keywords:  Trigonella Foenum-groecum L., Seeds, Fabacecae, Saponins

Solubility Enhancment of Azithromycin by Solid Dispersion Method by using Polymer PVP K 90

SEE PD

Perfect Fluid with Heat Flow in f(T) Theory of Gravity

Bianchi Type-I cosmological models have been a subject of extensive research in cosmology due to their simplicity and relevance in understanding the dynamics of the early Universe. In this study, we investigate the dynamics of such models within the framework of f(T) gravity, an alternative theory of gravity that extends teleparallel gravity by introducing a general function of the torsion scalar, T. We focus on the presence of a perfect fluid with heat flow in the cosmic medium. By solving the field equations of f(T) gravity, we obtain exact solutions for the Bianchi Type-I cosmological models. These solutions provide valuable insights into the evolution of the Universe and how it is influenced by the modified gravity theory. Furthermore, we derive cosmological parameters in terms of redshift, offering a convenient way to interpret observational data and connect theoretical predictions to empirical measurements. Our findings not only contribute to a deeper understanding of the dynamics of Bianchi Type-I cosmological models but also  provide a foundation for comparing f(T) gravity with standard general relativity in the context of observational cosmology. This research paves the way for further exploration of alternative gravity theories and their implications for the early Universe’s evolution and structure

Not Available

Not AvailableNot AvailableDirectorate of Extension, Ministry of Agriculture & Farmers Welfare (Department of Agriculture, Cooperation & Farmers Welfare), Government of Indi