The binding energy per particle in MeV as a function of the mass number of anucleus has been represented in the following histogram. A nucleus havingmass number A =140 fissions into two nuclei of equal masses. How muchenergy will be released in this process?(b)249Cf undergoes alpha decay.(i) Write the reaction equation.(ii) Find the energy released in the decay. 7. (a) The binding energy per particle in MeV as a function of the mass number of anucleus has been represented in the following histogram. A nucleus havingmass number A =140 fissions into two nuclei of equal masses. How muchenergy will be released in this process?BE80120160200(b) 249Cf undergoes alpha decay.(i) Write the reaction equation.(ii) Find the energy released in the decay.

(a) The reaction follows : A→A2+A2140→70+70 Taking values from graph: Binding energy of A is :…

The binding energy per particle in MeV as a function of the mass number of a nucleus has been represented in the following histogram. A nucleus having mass number A =140 fissions into two nuclei of equal masses. How much energy will be released in this process? (b) 249Cf undergoes alpha decay. (i) Write the reaction equation. (ii) Find the energy released in the decay.

The binding energy per particle in MeV as a function of the mass number of a nucleus has been represented in the following histogram. A nucleus having mass number A =140 fissions into two nuclei of equal masses. How much energy will be released in this process? (b) 249Cf undergoes alpha decay. (i) Write the reaction equation. (ii) Find the energy released in the decay.