Search results

• Soap
  Soap consists of sodium or potassium [[salt (chemistry)|salt]]s of fatty acids and is obtained by reacting common oils or fats wit ...r. Applied to a soiled surface, soapy water effectively holds particles in colloidal suspension so it can be rinsed off with clean water. The hydrophobic portio
  20 KB (3,140 words) - 21:41, 17 June 2010
• Sodium thiosulfate
  ...]] manufacture.<ref name="holleman">Holleman, A. F.; Wiberg, E. "Inorganic Chemistry" Academic Press: San Diego, 2001. ISBN 0-12-352651-5</ref> In the laborato ...m colourless to a pale yellow. This reaction has been employed to generate colloidal sulfur. When the protonation is conducted at low temperatures, H<sub>2</su
  12 KB (1,720 words) - 15:42, 27 September 2010
• Azithromycin
  Azithromycin is commonly administered in tablet or oral [[suspension (chemistry)|suspension]] (a one-dose version was made available in 2005). It is also a ...ients: [[butylated hydroxytoluene]], [[calcium phosphate]], [[carmine]], [[colloidal]] [[silicon dioxide]], [[FD&C]] [[Allura Red AC|red # 40]] [[Food coloring#
  15 KB (2,008 words) - 15:46, 27 September 2010
• Prussian blue
  ...lleman: [http://books.google.com/books?id=vEwj1WZKThEC&pg=PA1444 Inorganic chemistry], p.1444. Academic Press, 2001; Google books</ref><br /> ...ition Metal Cyanide Compounds: Modern Perspectives", Progress in Inorganic Chemistry, 1997, 45, 283-391.</ref>. Despite being one of the oldest known synthetic
  20 KB (3,004 words) - 15:47, 27 September 2010
• Ceramic materials
  ...esult of its crystalline structure and chemical composition. [[Solid state chemistry]] reveals the fundamental connection between microstructure and properties ...transition temperature can be adjusted over a wide range by variations in chemistry. In such materials, current will pass through the material until [[joule he
  28 KB (3,876 words) - 09:08, 20 September 2010
• Polyelectrolyte
  ...ing units bear an [[electrolyte]] group. These groups will [[dissociation (chemistry)|dissociate]] in [[aqueous]] solutions (water), making the polymers [[charg ...sified as either [[weak acid|weak]] or [[strong acid|strong]] (and [[Base (chemistry)|bases]] similarly may be either [[weak base|weak]] or [[strong base|strong
  10 KB (1,406 words) - 09:09, 20 September 2010
• PolyDADMAC
  ...[[humus]]. Little is needed to produce large flocs, rapid [[precipitation (chemistry)|precipitation]] and low [[turbidity]] residue.
  4 KB (452 words) - 09:10, 20 September 2010
• Electroacoustic phenomena
  ...that arises when an [[acoustic wave]] propagates through a [[Homogeneous (chemistry)|homogeneous]] fluid. ...“Review. Recent developments in the electroacoustic characterization of colloidal suspensions and emulsions”, Colloids and Surfaces, 141, 37-65, 1998</ref>
  10 KB (1,363 words) - 09:12, 20 September 2010
• Dukhin number
  ...ectrokinetic Phenomena (IUPAC Technical Report)|journal=[[Pure and Applied Chemistry]] (10) , (2005)|year=2005|first=|last=|coauthors=A. V. DELGADO, F. GONZÁLE :z is [[ion]] [[valence (chemistry)|valency]]
  2 KB (343 words) - 09:12, 20 September 2010
• Surface conductivity
  :z is [[ion]] [[valence (chemistry)|valency]] [[Category:Colloidal chemistry]]
  3 KB (407 words) - 09:12, 20 September 2010
• Dispersion medium
  [[Category:Colloidal chemistry]]
  209 bytes (22 words) - 09:12, 20 September 2010
• Electric surface charge
  ...the electric surfface charge description and its relation to the [[surface chemistry]] are given by Lyklema in "Fundamentals of Interface and Colloid Science".< [[Category:Colloidal chemistry]]
  1 KB (144 words) - 09:12, 20 September 2010
• Ion Vibration Current/Potential
  ...that arises when an [[acoustic wave]] propagates through a [[Homogeneous (chemistry)|homogeneous]] fluid. [[Category:Colloidal chemistry]]
  1 KB (167 words) - 09:12, 20 September 2010
• Electric sonic amplitude
  ...202-7|title=Recent developments in the electroacoustic characterisation of colloidal suspensions and emulsions|year=1998|last1=Hunter|first1=R|journal=Colloids [[Category:Colloidal chemistry]]
  1 KB (160 words) - 09:12, 20 September 2010
• Colloid vibration current
  ...sturbs the [[double layer]] that exists at the particle-fluid [[Interface (chemistry)|interface]]. The picture illustrates the mechanism of this distortion. Pra [[Category:Colloidal chemistry]]
  2 KB (275 words) - 09:12, 20 September 2010
• Interface and colloid science
  '''Interface and colloid science''' is a branch of [[chemistry]] dealing with [[colloid]]s, [[heterogeneous]] systems consisting of a mech ...W.R. [http://books.google.com/books?id=FZIh-V1Asn8C&printsec=frontcover “Colloidal Dispersions”], Cambridge University Press, 1992 ISBN 0521426006</ref><ref
  2 KB (236 words) - 09:12, 20 September 2010
• Zeta potential titration
  [[Category:Colloidal chemistry]]
  3 KB (350 words) - 09:12, 20 September 2010
• Streaming Vibration Current/Potential
  [[Category:Colloidal chemistry]]
  1 KB (136 words) - 09:12, 20 September 2010
• Ouzo effect
  ...l-in-water [[emulsion]]s are not stable as the oil droplets [[Coalescence (chemistry)|coalesce]] until complete phase separation is achieved at [[macroscopic]] [[Category:Colloidal chemistry]]
  5 KB (681 words) - 09:12, 20 September 2010
• Particle size distribution
  [[Category:Colloidal chemistry]]
  16 KB (2,356 words) - 09:12, 20 September 2010

View (previous 20 | next 20) (20 | 50 | 100 | 250 | 500)