3.3

Question 1

The degree and speed of aggregation is partially determined by a _____

Answer 1

balance of interparticulate forces

Question 2

Interparticulate forces include ____ which is the surface charges arising upon dispersal in aqueous medium (same identical molecule drug with same charge will be repulsive to each other)

Answer 2

electrostatic repulsive force

Question 3

Interparticulate forces include ____ which is the arising from electromagnetic fluctuations in surfaces molecules (come together permanently - hard to separate)

Answer 3

Van der Waals attractive forces

Question 4

Interparticulate forces include _____ which occur in sucrose crystals (with all of its hydroxyl groups) structuring of water near interfacial region

Answer 4

repulsive hydration forces

Question 5

Combine all of the interparticulate forces there will be a net force of attraction and repulsion between two molecules which is displayed as a curve called

Answer 5

total potential energy of interaction curve

Question 6

Particles may aggregate very strongly at close distances _____

Answer 6

primary minimum

Question 7

Particles may aggregate very weakly at greater distances ____

Answer 7

secondary minimum

Question 8

Two types of particle aggregation: ____+____

Answer 8

Coagulation (hard to separate) and Flocculation (weakly bound)

Question 9

Potential energy of interaction curve may vary significantly based on ______ and the _______

Answer 9

nature of particles (charge) , medium that they are in

Question 10

Particles will repel each other (less likely to come together at the primary _____

Answer 10

maximum

Question 11

Coagulation are strongly bounded at the _____, the particles are closely aggregated making them difficult to disperse.

Answer 11

primary minimum

Question 12

____ is the formation of a non-redispersible sediment within a suspension (combination of settling and coagulation)

Answer 12

Caking

Question 13

De-flocculated particles are completely independent of each other and don’t have a ____ minimum

Answer 13

secondary

Question 14

Deflocculated particles are pressed together from weight above and the repulsive energy barrier is overcome, leading to the aggregation at the ____

Answer 14

primary minimum

Question 15

Formulators try to avoid caking by intentionally creating ___ suspensions.

Answer 15

flocculated

Question 16

Flocculation is the weakly bound particles at the ____ minimum

Answer 16

secondary

little shake will disperse particles

Question 17

How you store suspensions may lead to _____= growth of large particles at the expense of small ones.

Answer 17

Ostwald ripening

(1. small particles dissolve then supersaturate solution then recrystallize to larger crystals, 2. bridges between newly forming crystals occur resulting in large crystals)

Question 18

Larger particles in suspensions will have (faster or slower) settling and (faster or slower) dissolution which leads to effect the bioavailability of the drug.

Answer 18

faster, slower

Question 19

Ostwald ripening is accelerated by the ____ fluctuations.

Answer 19

temperature

alters solubility– avoid wide/repetitive temperature changes

Question 20

Wetting agents, flocculating agents, and suspending agents are all excipients for _____ stability

Answer 20

physical

Question 21

Suspending agents help..

Answer 21

minimize settling

Question 22

Flocculating agents …

Answer 22

hold particles loosely together to prevent caking

Question 23

Structured vehicle is a structure created by a ______ network

Answer 23

hydrophilic colloid

Question 24

_____ the hydrocarbon chain is absorbed to the hydrophobic particle while the polar groups project into aqueous medium. This is a wetting agent.

Answer 24

Surfactants

make particle surface more hydrophilic

Question 25

Docusate sodium is a common ______

Answer 25

anionic surfactant

Question 26

Polysorbate (Tweens) is a common _______

Answer 26

Non-ionic surfactant

Question 27

______ is a wetting agent where the solvent penetrates the loose agglomerates of powder displacing in the air.

Answer 27

Solvents (water-miscible)

Question 28

_____ are wetting agents by coating the hydrophobic particles with a multimolecular layer imparting a hydrophilic character to the particles.

Answer 28

Certain polymers

cellulose derivatives, acacia, tragacanth

Question 29

Controlled flocculation is the intentional formation of weakly bonded aggregates with an open structure which helps prevent caking by keeping particles away from primary…

Answer 29

minimum

Question 30

Type of flocculating agent is ________, which reduces the charge thus reducing electric barrier between particles. Adjust the charges/ionic strength of the forces.

Answer 30

Electrolytes

Question 31

Electrolytes include…

Answer 31

sodium salts of acetate, phosphates, and citrates.

Question 32

If you want to increase charge repulsion (from almost primary minimum to secondary minimum) you would use ________ which is a flocculating agent.

Answer 32

ionic surfactant

Question 33

______ are wetting and flocculating agents that can form bridges between particles and includes cellulose derivatives, PEGs, Alginates (from seaweed), and tragacanth.

Answer 33

certain polymers

Question 34

______ agents slow down particle movement (including settling) by imparting viscosity (making it more viscous) and structure to the system.

Answer 34

Suspending agents

Question 35

rheology is the study of…

Answer 35

deformation and flow of materials

Question 36

viscosity = _________

Answer 36

the resistance offered when one part of a liquid flows by another

Question 37

Dissolution (bioavailability) depends on viscosity, if viscosity is high (very viscous) then dissolution is…

Answer 37

decreased

dissolve in water first

Question 38

(increase or decrease) viscosity helps reduce settling rate.

Answer 38

Increase

Question 39

Newton’s Law: Rate of flow is (directly or inversely) proportional to the applied stress (shear stress).

Answer 39

directly proportional

Question 40

______ (G) is difference in velocity between two layers as depicted on the movement of liquid flow of parallel layers of molecules.

Answer 40

Shear rate

Question 41

The force needed to cause the flow of movement of particles is the ______ (F)

Answer 41

shear stress

Question 42

Newton’s Law equation is…

Answer 42

G/F

Difference in velocity over shear stress

Question 43

Plotting shear rate as function of shear stress the slope will be (directly or inversely) proportional to the viscosity.

Answer 43

inverse proportional

Question 44

_____ Liquids, the shear rate is a linear function of shear stress (i.e. viscosity is constant)

Answer 44

Newtonian

(obey newtons law)

e.g. water, syrup, alcohol, glycerol

Question 45

______ Liquids, the viscosity will change with shear stress.

Answer 45

Non-Newtonian

Question 46

____ liquid, where flow does not occur until minimum shear stress (yield value) is reached. It is a type of non-newtonian liquid.

Answer 46

Plastic

Question 47

_____ liquid has no yield value, as more shaking occurs it becomes more and more viscous. On the shelf, settling is reduced because of high viscosity and flow begins as soon as stress is applied.

Answer 47

Pseudoplastic

Question 48

_______ under shear stress they detangle, allowing flow to begin in pseudoplastic liquids

Answer 48

tangled hydrocolloids