The nucleus `_48^115Cd`, after two successive `beta`-decays will give

The radioactive nucleide ""_(90)^(134)Th undergoes two successive beta- deacys followed by one alpha - decay. The atomic number and mass number respectively of the resulting radionucleide is :

An artificial radioactive isotope gave ""_(7)^(14)N after two successive Beta -particle emissions. The number of neutrons in the parent nucleus must be

A nucleus undergoes beta^(-)-decay . How does its mass number

Consider the fission of ""_(92)^(238)U by fast neutrons. In one fission event, no neutrons are emitted and the final end products, after the beta decay of the primary fragments, are ""_(58)^(140)Ce and ""_(44)^(99)Ru . Calculate Q for this fission process. The relevant atomic and particle masses are m(""_(92)^(238)U) =238.05079 u m( ""_(58)^(140)Ce ) =139.90543 u m(""_(44)^(99)Ru ) = 98.90594 u

A nucleus undergoes beta^(-)-decay . How does its atomic number change?

An element X decays first by positron emission and then two alpha - particles are emitted in successive radioactive decay. If the product nucleus has a mass number 229 and atomic number 89, the mass number and the atomic number of element X are

What will be the position of the daughter nucleus in the periodic table, when beta^(+) and beta^(-) decays take place? Give an example under each.