`"_1H^1+_1H^1+_1H^2rarr X+_1e^0+`energy. The emitted particle is:

Consider the D–T reaction (deuterium–tritium fusion) "_1^2H + "_1^3H rarr "_2^4He + n . Calculate the energy released in MeV in this reaction from the data: m( "_1^2H )=2.014102 u m( "_1^3H ) =3.016049 u

The Q value of a nuclear reaction A + b rarr 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 reaction and state whether the reaction is exothermic or endothermic. "_1^1H + "_1^3H rarr "_1^2H + "_1^2H Atomic masses are given to be m ( "_1^2H ) = 2.014102 u m ( "_1^3H ) = 3.016049 u

There are three isotopes of hydrogen "_1^1H , "_1^2H , "_1^3H all are electrically neutral, why ?

Consider the D "_1^2H + "_1^3H rarr "_2^4He +n - Consider the radius of both deuterium and tritium to be approximately 2.0 fm. What is the kinetic energy needed to overcome the coulomb repulsion between the two nuclei? To what temperature must the gas be heated to initiate the reaction?

Let E_n=(-1 me^4)/(8epsilon_0^2 n^2h^2) be the energy of the nth level of H-atom. If all the H-atoms are in the ground state and radiaton of frequency (E_2-E_1)/h falls on it.

"_2H_e^2 and "_1H^3 nuclei have the same mass number. Do they have the same binding energy?

The electronegativities of F and H are 4.0 and 2.1 respectively. The percent ionic character in H and F bond is

Let A_(1),G_(1),H_(1) denote the arithmetic, geometric and harmonic means respectively, of two distinct positive numbers. For nge2 , let A_(n-1),G_(n-1)" and "H_(n-1) has arithmetic,geometric and harmonic means as A_(n),G_(n),H_(n) respectively. Which of the following statement is correct? a. H_(1)gtH_(2)gtH_(3)gt"......." b. H_(1)ltH_(2)ltH_(3)lt"......." c. H_(1)gtH_(3)gtH_(5)gt"......." " and " H_(2)ltH_(4)ltH_(6)lt"......." d. H_(1)ltH_(3)ltH_(5)lt"......."" and " H_(2)gtH_(4)gtH_(6)gt"......."

In the radioactive decay {:(._(z)X^(A) rarr _(Z+1)Y^(A)rarr_(Z-1)Z^(A-4) rarr_(Z-1)Z^(A-4)),(" high energy" " low energy"):} the sequence of the radiation emitted is :

The binding energies per nucleon in case of deutron ("-1H^2) and alpha -particle ("-2He^4) are 1.25 MeV and 7.2 MeV respectively. Which nucleus is more stable?