A. 38-42%
B. 48-52%
C. 58-62%
D. 68-72%
Amalgams
Amalgams
A. 30-35%
B. 26-28%
C. 13-32%
D. 22-30%
A. Zinc and water
B. Water
C. Hydrogen
D. Nascent oxygen
A. More compressive strength but less tensile strength
B. More compressive strength and tensile strength
C. Less compressive strength but more tensile strength
D. Less compressive strength and tensile strength
A. Copper
B. Zinc
C. Silver
D. Tin
A. Higher the strength
B. Lower the creep value
C. More matrix matrial formed
D. More gamma 1 phase formed
A. The resultant alloy is greater
B. The resultant alloy is lesser
C. The resultant alloy varies according to the content of Ag of Cu
D. None of the above
A. 35 pounds
B. 3 pounds
C. 15 lb
D. 25 lb
A. Low tensile and compressive strength
B. Low Hg: Alloy ratio
C. High tensile strength
D. Low creep
A. A metallic powder composed of silver, tin, copper and zinc
B. An alloy of two or more metals one of which is mercury
C. An alloy of two or more metals that have been dissolved in each other in the molten state
D. A metallic substances in powder or tablet from that is mixed with mercury
