Importance of Core Revision Points: Core Revision Points are important because if you remember them strongly, many more points related to them will come out of your memory and help you to answer question and problems. Read them many times and make sure you remember them very strongly.
11.1 Natural Radioactivity:Discovery and historical development
11.2 Nature and characteristics of Radioactive rays
11.3 Nuclear structure and nuclear forces
11.4 Nuclear reactions and group displacement law
Practice Problems: 11.1 to 11.8
11.5 Radioactive disintegration series
11.6 Rate of radioactivity decay
P.P. 11.9 to 11.16
11.7 Artificial transmutation of elements
11.8 Artificial or induced radioactivity
P.P. 11.17 to 11.20
11.9 Nuclear energy
P.P. 11.21 to 11.24
11.10 Nuclear fission
11.11 Atomic bomb and Nuclear reactor
11.12 Nuclear Fusion
P.P. 11.25 to 11.26
11.13 Synthetic elements
11.14 Radioactive isotopes and their uses
P.P. 11.27 to 11.38
11.15 Hazards of Nuclear radiations
11.1 Natural Radioactivity:Discovery and historical development
11.2 Nature and characteristics of Radioactive rays
11.3 Nuclear structure and nuclear forces
11.4 Nuclear reactions and group displacement law
Practice Problems: 11.1 to 11.8
11.5 Radioactive disintegration series
11.6 Rate of radioactivity decay
P.P. 11.9 to 11.16
11.7 Artificial transmutation of elements
11.8 Artificial or induced radioactivity
P.P. 11.17 to 11.20
11.9 Nuclear energy
P.P. 11.21 to 11.24
11.10 Nuclear fission
11.11 Atomic bomb and Nuclear reactor
11.12 Nuclear Fusion
P.P. 11.25 to 11.26
11.13 Synthetic elements
11.14 Radioactive isotopes and their uses
P.P. 11.27 to 11.38
11.15 Hazards of Nuclear radiations
11.1 Natural Radioactivity:Discovery and historical development
11.2 Nature and characteristics of Radioactive rays
11.3 Nuclear structure and nuclear forces
11.4 Nuclear reactions and group displacement law
Practice Problems: 11.1 to 11.8
11.5 Radioactive disintegration series
11.6 Rate of radioactivity decay
P.P. 11.9 to 11.16
11.7 Artificial transmutation of elements
11.8 Artificial or induced radioactivity
P.P. 11.17 to 11.20
11.9 Nuclear energy
P.P. 11.21 to 11.24
11.10 Nuclear fission
11.11 Atomic bomb and Nuclear reactor
11.12 Nuclear Fusion
P.P. 11.25 to 11.26
11.13 Synthetic elements
11.14 Radioactive isotopes and their uses
P.P. 11.27 to 11.38
11.15 Hazards of Nuclear radiations
11.1 Natural Radioactivity:Discovery and historical development
11.2 Nature and characteristics of Radioactive rays
11.3 Nuclear structure and nuclear forces
11.4 Nuclear reactions and group displacement law
Practice Problems: 11.1 to 11.8
11.5 Radioactive disintegration series
11.6 Rate of radioactivity decay
P.P. 11.9 to 11.16
11.7 Artificial transmutation of elements
11.8 Artificial or induced radioactivity
P.P. 11.17 to 11.20
11.9 Nuclear energy
P.P. 11.21 to 11.24
11.10 Nuclear fission
11.11 Atomic bomb and Nuclear reactor
11.12 Nuclear Fusion
P.P. 11.25 to 11.26
11.13 Synthetic elements
11.14 Radioactive isotopes and their uses
P.P. 11.27 to 11.38
11.15 Hazards of Nuclear radiations
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