A. Improper amalgam filling
B. Pulp exposure
C. Galvanism
D. None of the above
A. Compressive strength
B. Tensile strength
C. Corrosion
D. Creep
A. Lungs
B. Gastro-intestinal Track
C. Skin
D. Kidneys
A. From smooth atomized particles
B. From irregular and spherical particles
C. From lathe cut particles
D. From traditional alloy particles
A. Remove oxides from powder particle surface
B. Keep the amount of gamma-1 or gamma-2 matrix crystals to maximum
C. Pulverize pelletes into particles to aid in attack by mercury
D. Achieve a workable mass of amalgam in minimum time
A. Silver
B. Tin
C. Mercury
D. Zinc
A. Requires least amount of mercury
B. Achieves lowest compressive strength at 1 hr.
C. Has tensile strength both at 15 min & 7 days comparable to high copper unicompositional alloy
D. Has low creep
A. Dry Mix
B. Shiny Mix
C. Short Mixing Time
D. None of the above
A. 40 Gpa and 60 – 100 Mpa
B. 21 Gpa and 27 – 55 Mpa
C. 350 Gpa and 10 – 120 Mpa
D. 360 Gpa and 125 – 130 Mpa
A. Electrochemical Corrosion
B. Chemical Corrosion
C. Penetrating Corrosion
D. Corrosion does not occur at all