Table 2-1. Fig.10-10. Physical Properties of Inorganic Comp. Velocity Ratio vs Reynolds no. for smooth circular pipes Table 2-138. Vapor Viscosity of Inorg & Org. Substances Eq. 5-54. Eq. 6-244. Eq. 21-120. Sieder & Tate Equation (NU for Laminar) Newton’s Law Energy Required to Produce a Change in Size of Material Table 2-2. Eq. 10-20. Eq. 5-9. Eq. 5-57. Eq. 6-246. Eq. 21-122. Physical Properties of Organic Comp. Working Eq. for Orifice & Venturi Meter Conduction with Resistance to Series Sieder & Tate Equation (NU for Turbulent) Archimedes Number (Ar) Rittinger’s Law (n=2) Table 2-31. Table 10-22. Eq. 5-8. Table 2-144. Eq. 6-247. Eq. 21-121. Conduction in Sphere Prandtl Number for Air Drag Coefficient for Settling Solid Spheres in Terms of Air Kick’s Law (n=1) Eq. 6-37. Eq. 5-7. Table 2-145. Eq. 6-239. Conduction in Cylinder Vapor Thermal Conductivity of Inorg. & Organic Compound Terminal Velocity for Spherical Particle Eq. 21-123. Colebrook Formula Bond’s Law (n=1.5); Ei= Bond work index Fig. 11-4. Eq. 18-100. Eq. 21-15. Equation for Max. Safe Stress of Centrifuge Rotor Average Work Indices for Various Materials (Ei) Density of Saturated Liquid Water Properties of Steel Pipes Table 2-135. Thermo. Dynamics of Water (Steam Table) Viscosities of Liquid: Coordinates Eq. 6-35. Eq. 5-33. HagenPoisevilie Eq. (for Qv) Newton’s Law of Cooling (Convection) Fig. 2-19. Table 2-140. LMTD Correction Factors for Heat Exchangers Eq. 6-88. Eq. 5-38. Fig. 2-17. Eq. 17-1. Nomograph for Viscosities of Liquids at 1atm Line Loss (FL) Total Heat Transfer for the Exchanger Enthalpy Conc. Diagram for Aq. NaOH at 1 atm Ergun Equation (Eq. for Re at Min. Fluidizing Condition) Table 6-2. Eq. 6-90. Values of Surface Roughness for Various Materials Eq. 17-40. Sudden Contraction Loss Coefficient (kc) Eq. 5-39. Fig. 11-112. Log Mean Temperature Difference Boiling Point Rise of Aq. Solution (BPE) Characteristics of Particles and Particle Dispersoids (Tyler Screen Mesh) Eq. 6-34. Table 6-5. Eq. 5. Table 12-3. Eq. 21-145. Hagen-Poiseville Eq. (Friction Factor for Laminar) Add. Friction Loss for Turbulent Flow Through Fitting and Valves (kf) Prandtl Formula Alternative Set of Values for Antoine Coefficients for AirWater Systems Net Power to Drive a Ball Mill (Efficiency) Eq. 6-38. Table 10-13. Eq. 5. Eq. 6-242. Eq. 21-143. Churchill Eq. (Friction Factor for Turbulent) The Affinity Laws Nusselt Number Stoke’s Law Critical Speed (NC) of Ball Mill