A. Atomic weights
B. Atomic numbers
C. Number of protons
D. Number of electrons
Nuclear Power Engineering
Nuclear Power Engineering
A. Froth floatation technique
B. Leaching with sulphuric acid
C. Smelting in a furnace
D. Dissolving in water
A. Pitchblende
B. Kyanite
C. Carnotite
D. Rescolite
A. Sustainment of chain reaction
B. Power generation on commercial scale
C. Economic power generation
D. None of these
A. Isomers
B. Isotopes
C. Isobars
D. Isotones
A. Melting point, hence can be subjected to higher temperature
B. Density; hence core volume for a given power output would be smaller
C. Resistance to effects of irradiation
D. All A., B. and C.
A. Barn
B. MeV
C. Curie
D. Ergs
A. 1/4
B. 1/8
C. 1/2
D. 1/16
A. α & β
B. β & γ
C. γ & α
D. α, β, & γ
A. Temperature
B. Pressure
C. Amount of element present
D. None of these
