Medical/Science Study World

 Applied Physics Module-1 1. Energy: Potential energy and Kinetic energy, Mechanical efficiency, Energy and mass. 2. Density of Gases: Molecular weight, Gram molecular weight. Avogadro number, Molecular agitation, Density. Module-2 3. Heat: Thermometry, Thermistor, Thermocouple. Heat capacity of gases. Newton’s Law of cooling, Convection, Conduction, Thermal Conductivity and Specific heat capacity. Module-3 4. Pressure: Dalton’s Law of partial pressure, Pressure gauges vapour pressure and ambient pressure. 5. Compressed gases, Gas laws and their applications, filling of compressed gases and filling ration. Module-4 Flow of fluids: Viscosity, Law and laminar flow rate. Turbulent flow pressure loss due to abrupt change in bore of tube. Bernoulli’s principle and clinical application of Bernoulli theorem, Diffusion, Osmosis, Law of diffusion, Isotonic solution. 6. Oxidation, combustion, flames, deflagrations. Prevention of explosions. .

  Clinical Pathology 1. Cellular adaptation and cell death https://drive.google.com/file/d/1PbOyhT0rwjm8HXWed4uVlc749PKgyddw/view?usp=sharing https://www.slideshare.net/slideshow/chapter1-46751833/46751833?from_search=9 2. Inflammation and repair, infection, circulatory disorders, immune defense 3. Genetics of disease 4. Neoplasia 5. Cell injury and adaptation 6. Atrophy, hypertrophy, metaphase, hyperplasia 7. Classification of tumors, premalignant lesion 8. Types of inflammation & system manifestations of inflammation 9. Disorders of vascular flow & shock (brief introduction). 10. Oedema, hyperemia or congestion, thrombosis, embolism, infarction shock, ischemia, over hydration, dehydration 11. The response to infection 12. Categories of infectious agents, host barriers to infection 13. How disease is caused 14. Inflammatory response to infectious agents 15. Hematopoietic and lymphoid System 16. Hemorrhage, various types of anemia, leucopenia, leukocytosis, bleeding disorde...

Clinical Hematology  1. Introduction to Hematology : (a) Definition (b) Importance 2. Introduction to blood, its composition, function and normal cellular components. 3. Collection and preservation of blood sample for various haematological investigations. 4. Definition, Normal values, Clinical significance, understanding errors involved for the following” (a) Haemoglobinometry (b) Total leucocytes count (TLC) (c) Differential leucocytes count (DLC) (d) Erythrocyte Sedimentation Rate (ESR) (e) Packed cell volume/ Haematocrit value. (f) Red cell Indices (RCI) (g) Absolute Eosinophil count (h) Reticulocyte count (i) Platelet Count. 5. CBC reading and interpretation 6. Trauma & Bleeding Disorders including DIC 7. To understand importance coagulation studies and commonly used parameters like bleeding time, prothrombin time etc. 8. Shock : Hemorrhagic & Hypovolemic 9. Brief Knowledge about various anaemias 10. Haemolytic reaction 11. Various shock a. hypovolemic , b. cardiac c. ...

  Prompt Create a slide deck from these sources that looks like student handwritten notes, following these rules: • All diagrams, flowcharts, tables, and drawings must be created in handwritten style. • Keep the language simple and student-friendly. • Short clarification words • Slides should feel like high-quality handwritten A4 pages. • Clean spacing, readable handwriting, and visual clarity. -------------------------------------------------- Create a handwritten study note about "enter your topic here".  Use a messy but legible student handwriting font on lined paper.  Use a yellow neon marker to highlight important terms so I can revise during exams  1) Identify and explain [insert your topic]. Be specific and to the point. Provide relevant examples. Audience is [define the sketchnote's audience] 2)Create a hand-drawn sketchnote visual summary of these notes. Use a pristine white paper background (no lines). The art style should be 'graphic recording' or '...