PROPERTY OF SOLIDS (PART 1) PDF

Summary

This document outlines the properties of solids, focusing on aspects relevant to pharmaceutical science. It covers topics such as states of matter, kinetic energy, Boyle's Law, and various solid forms (crystalline, amorphous, and polymorphs), including their roles in pharmaceutical aerosols and formulations. The document also describes several key concepts including micromeritics and wettability.

Full Transcript

PROPERTY OF SOLIDS (PART 1) – DR. YANG 1. What are the three states of matter? A : Solid, liquid, and gas. 2. What is the energy of a typical single covalent bond? A : ~330 kJ/mol. 3. What happens to kinetic energy as temperature increases? A : Kinetic energy increases (KE ∝ T). 4. What is Bo...

PROPERTY OF SOLIDS (PART 1) – DR. YANG 1. What are the three states of matter? A : Solid, liquid, and gas. 2. What is the energy of a typical single covalent bond? A : ~330 kJ/mol. 3. What happens to kinetic energy as temperature increases? A : Kinetic energy increases (KE ∝ T). 4. What is Boyle’s Gas Law? A : Pressure is inversely proportional to volume (PV = constant) at constant temperature. 5. What is the role of pharmaceutical aerosols? A : They contain a liquefied gas as a dispersion medium or propellant, utilizing phase transitions between gas and liquid. 6. What is a crystalline solid? A : A solid where molecules are packed in a regularly ordered, repeating pattern. 7. What is an amorphous solid? A : A solid where molecules are not arranged in a regular pattern. 8. What are polymorphs? A : Different crystalline forms of the same chemical substance. 9. Why are polymorphs important in pharmaceuticals? A : They affect properties like solubility, dissolution rate, bioavailability, and stability. 10. What is the issue with chloramphenicol palmitate’s anhydrous form? A : It is not bioavailable. 11. What solid-state form of enalapril maleate is toxic? A : Form I produces a toxic degradation product. 12. What is a pharmaceutical salt? A : A crystalline salt formed by combining an acidic or basic drug with a counterion. 13. Why are salts used in pharmaceuticals? A : For improved bioavailability, developability, purification, and patent advantages. 14. What are cocrystals? A : Crystalline complexes of two or more neutral molecules that are solid at ambient conditions. 15. What is the heat of fusion? A : The heat required to convert a solid into a liquid by increasing intermolecular distances. 16. What is the definition of a powder in pharmaceutics? A : A dry substance composed of finely divided particles. 17. What is micromeritics? A : The science of small particles. 18. What are some micromeritic properties? A : Particle size, size distribution, shape, angle of repose, porosity, and bulk density. 19. How does particle size affect pharmaceutical formulations? A : It influences mixing, blending, dose uniformity, powder flow, dissolution, and suspendability. 20. What is the angle of repose? A : It is the angle formed when a powder is allowed to fall freely, used to estimate flow properties. 21. What is the relationship between particle size and dissolution rate? A : Smaller particles dissolve faster. 22. What are the two main methods of particle size measurement? A : Ensemble methods (e.g., sieving, light scattering) and number counting methods (e.g., microscopy). 23. What is the USP classification of particle size for "very coarse" particles? A : Particles pass through a #8 sieve (2,360 µm). 24. What microscopy technique is used for nanoparticles? A : Transmission Electron Microscopy (TEM). 25. How is porosity defined in powders? A : Porosity is the ratio of void space to the bulk volume, expressed as a percentage. 26. What is bulkiness in powders? A : Bulkiness is the reciprocal of the apparent density, expressed in mL/g. 27. How is true density different from bulk density? A : True density refers to the density of the particles themselves, while bulk density includes the voids between particles. 28. What is the formula for porosity? A : Porosity = (V_bulk – V_true) / V_bulk × 100. 29. What is the contact angle a measure of? A : Wettability of a powder surface by a liquid. 30. How does the Young’s equation relate to wettability? A : It relates surface free energy to the contact angle of a liquid on a solid. 31. Why is good wetting important in pharmaceutical formulations? A : It ensures proper dispersion of powders in liquids and penetration of liquid into tablets. 32. How can wetting problems be solved in pharmaceutical formulations? A : By including surfactants in the formulation. 33. What does "true volume" refer to in powders? A : The volume occupied by the powder particles themselves, excluding voids. 34. What is "bulk volume" in powders? A : The total volume occupied by a powder, including the void spaces. 35. What is void in micromeritics? A : The ratio of the space (void) to the volume of the powder. 36. What is the significance of equivalent sphere diameter in particle size? A : It is used to describe the size of irregular particles based on volume, surface area, or mass. 37. How does particle size affect powder flow? A : Smaller particles tend to have worse flow properties. 38. What is the angle of repose formula? A : tan θ = h / r, where h is the height of the powder cone and r is the radius. 39. What is the relevance of particle size in aerosolization? A : Smaller particles are more effective for dry powder inhalers. 40. What does "true volume" of magnesium carbonate powder measure? A : The actual space occupied by the particles, calculated using true density and mass. 41. What is the bulk density of magnesium carbonate powder? A : Bulk density is the weight of the sample divided by the bulk volume. 42. How is bulkiness calculated? A : Bulkiness = 1 / apparent density. 43. What is the bulkiness of magnesium carbonate powder with a bulk density of 0.07 g/mL? A : 14.28 mL/g. 44. What is an example of a fine particle size classification in the USP? A : All particles pass through a #60 sieve (250 µm), with not more than 40% passing through a #100 sieve. 45. What microscopy method is used for particles larger than 1 µm? A : Optical Microscopy. 46. How does particle size influence dose uniformity in formulations? A : Smaller particles allow for more uniform doses. 47. What happens to powder flow when particle size decreases? A : Powder flow becomes worse. 48. How does wettability affect the dispersion of powders in liquids? A : Good wettability ensures better dispersion. 49. What forces influence the contact angle of a liquid droplet on a solid? A : The surface tension of the solid, the solid-liquid interfacial tension, and the liquid's surface tension. 50. What is the pharmaceutical implication of surface free energy in powder adhesion? A : Surface free energy affects the mechanical properties of tablets and the adhesion of powders.

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