A. 1012
B. 10-12
C. 10-8
D. 108
Nuclear Power Engineering
Nuclear Power Engineering
A. Highly purified water
B. A compound of oxygen and deuterium
C. Water having dissolved salts of heavy metals
D. None of these
A. Fission
B. Combustion
C. Thermonuclear
D. None of these
A. Innermost shell
B. Nucleus
C. Outermost shell
D. None of these
A. Molten sodium cooled
B. CO2 gas cooled
C. Pressurised water
D. Boiling water
A. Uranium-238
B. Thorium-233
C. Plutonium-239
D. None of these
A. High carbon steel
B. Molybdenum
C. Zircaloy
D. Boron or cadmium
A. 0.71
B. 99.29
C. 0.015
D. 29.71
A. Concrete
B. Boron
C. 18/8 stainless steel
D. All A., B. and C.
A. Fuel cost per unit power generated is less
B. Thermal efficiency of the former is higher
C. Maintenance cost of the former is less
D. None of these
