Find the Q - value for the nuclear reaction:
`._(2)He^(4)+._(7)N^(14) rarr ._(8)O^(17)+._(1)H^(1)`
`m(._(2)He^(4))=4.0039 "amu" m(._(7) N^(14))=14.0075 "amu" m(._(8)O^(17))=17.0045` amu
`m(._(1)H^(1))=1.0082` amu

How much energy must a bomberding proton possess to cause the reaction ._(3)Li^(7) + ._(1)H^(1) rarr ._(4)Be^(7) + ._(0)n^(1) (Mass of ._(3)Li^(7) atom is 7.01400 , mass of ._(1)m^(1) atom is 1.0783 , mass of ._(4)Be^(7) atom is 7.01693 )

Calculate Q value of the following nuclear reaction 13^(Al^(27)) + 2^(He^(4)) rarr 14^(Si^(30)) + 1^(H^(1)) + Q. The exact mass of 13^(Al^(27)) is 26.9815 amu, 14^(Si^(30)) is 29.9738, 2^(He^(4)) is 4.0026 amu and 1^(H^(1)) is 1.0078 amu.

The Q value of a nuclear reaction A + b to C + d is defined by Q = [m_A + m_b – m_C – m_d]c^2 where the masses refer to the respective nuclei. Determine from the given data the Q-value of the following reactions and state whether the reactions are exothermic or endothermic. (i) ""_(1)^(1)H + ""_(1)^(3)H to _(1)^(2)H + _(1)^(2)H (ii) ""_(6)^(12)C + ""_(6)^(12)C to ""_(10)^(20)Ne + ""_(2)^(4)He Atomic masses are given to be m (""_(1)^(2)H) = 2.014102 u m (""_(1)^(3)H) = 3.016049 u m (""_(6)^(12)C ) = 12.000000 u m (""_(10)^(20)Ne ) = 19.992439 u .

Predict the bombarding projectile in the following nuclear reactions (i) 13^(Al^(27)) + ? rarr 11^(Na^(24)) + 2^(He^(4)) (ii) 34^(Se^(83)) + ? rarr 34^(Se^(84)) + gamma rays (iii) 7^(N^(14)) + ? rarr 8^(O^(17) + 1^(H^(1))

The value of cot(cose c^(-1)5/3+tan^(-1)2/3) is: (1) 6/(17) (2) 3/(17) (2) 4/(17) (4) 5/(17)

Calculate the number of electrons in 1.4 gram 7^(N^(3-)) ion. (Atomic mass of N=14).

Find the slope of the line passing through the given two point A(-1.4, -3.7), B(-2.4, 1.3)

A star initially has 10^(40) deuterons. It produces energy via the process _(1)H^(2) + _(1)H^(2) + rarr _(1) H^(3) + p. and _(1)H^(2) + _(1)H^(3) + rarr _(2) He^(4) + n .If the average power radiated by the state is 10^(16) W , the deuteron supply of the star is exhausted in a time of the order of . The masses of the nuclei are as follows: M(H^(2)) = 2.014 amu, M(p) = 1.007 amu, M(n) = 1.008 amu, M(He^(4)) = 4.001 amu .