The stabiliy of nuclies has been explain...

The stabiliy of nuclies has been explained in terms of binding energy. Higher is binding energy, more is stabliliy to nucleus. The binding energy is written as `B.E = 931.478 xx Delta m' MeV`m wehre `Delta m'` is mass decayed in amu. If `B.E.//"nucleon"` lies below the belt of stablilty, the nucleus undergoes `alpha-` emission in order to lower down the energy level of nucleus but its `n//p` ratio increases. To lower down the energy level of nucleus but is `n//p` ratio increases. To lower down level of nucleus loses `beta-` particles and if stability is not gained, `gamma-` emission is noticed. A radioactive element on losing on `alpha-` particles shows a loss in its mass number by `4` units and atomic number by 2 units whereas `beta-` emission leads to a gain in at.no by one units and mass no. remains same.
Total number of `alpha-` and `beta-` particles emitted during radioactive emssion of `._(92)^(235)U` to attain stabilty is:

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The stabiliy of nuclies has been explained in terms of binding energy. Higher is binding energy, more is stabliliy to nucleus. The binding energy is written as B.E = 931.478 xx Delta m' MeV m wehre Delta m' is mass decayed in amu. If B.E.//"nucleon" lies below the belt of stablilty, the nucleus undergoes alpha- emission in order to lower down the energy level of nucleus but its n//p ratio increases. To lower down the energy level of nucleus but is n//p ratio increases. To lower down level of nucleus loses beta- particles and if stability is not gained, gamma- emission is noticed. A radioactive element on losing on alpha- particles shows a loss in its mass number by 4 units and atomic number by 2 units whereas beta- emission leads to a gain in at.no by one units and mass no. remains same. An element having n//p ratio greater than 1 will show:

The stabiliy of nuclies has been explained in terms of binding energy. Higher is binding energy, more is stabliliy to nucleus. The binding energy is written as B.E = 931.478 xx Delta m' MeV m wehre Delta m' is mass decayed in amu. If B.E.//"nucleon" lies below the belt of stablilty, the nucleus undergoes alpha- emission in order to lower down the energy level of nucleus but its n//p ratio increases. To lower down the energy level of nucleus but is n//p ratio increases. To lower down level of nucleus loses beta- particles and if stability is not gained, gamma- emission is noticed. A radioactive element on losing on alpha- particles shows a loss in its mass number by 4 units and atomic number by 2 units whereas beta- emission leads to a gain in at.no by one units and mass no. remains same. Durting K- electron capture, the emission is always in the region of:

The stabiliy of nuclies has been explained in terms of binding energy. Higher is binding energy, more is stabliliy to nucleus. The binding energy is written as B.E = 931.478 xx Delta m' MeV m wehre Delta m' is mass decayed in amu. If B.E.//"nucleon" lies below the belt of stablilty, the nucleus undergoes alpha- emission in order to lower down the energy level of nucleus but its n//p ratio increases. To lower down the energy level of nucleus but is n//p ratio increases. To lower down level of nucleus loses beta- particles and if stability is not gained, gamma- emission is noticed. A radioactive element on losing on alpha- particles shows a loss in its mass number by 4 units and atomic number by 2 units whereas beta- emission leads to a gain in at.no by one units and mass no. remains same. ._(90)^(228)Th overset(-alpha)(rarr) A ,If Th belongs to III gp of periodic table, then 'A' belongs to:

The stabiliy of nuclies has been explained in terms of binding energy. Higher is binding energy, more is stabliliy to nucleus. The binding energy is written as B.E = 931.478 xx Delta m' MeV m wehre Delta m' is mass decayed in amu. If B.E.//"nucleon" lies below the belt of stablilty, the nucleus undergoes alpha- emission in order to lower down the energy level of nucleus but its n//p ratio increases. To lower down the energy level of nucleus but is n//p ratio increases. To lower down level of nucleus loses beta- particles and if stability is not gained, gamma- emission is noticed. A radioactive element on losing on alpha- particles shows a loss in its mass number by 4 units and atomic number by 2 units whereas beta- emission leads to a gain in at.no by one units and mass no. remains same. underset((E.S.))( ._(8)^(19))O rarr underset((G.S.))( ._(8)^(19))O + 1.06xx10^(8) "kcal"//mol . The two oxygen atoms differ by a mass per mol is:

Binding energy of the nucleus is

Binding energy of a nucleus is.

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