![Verify the binding energy per nucleon given in Table42-1 the plutonium isotope ^{239}Pu. The mass of the neutral atom is 239.052 16 u. Verify the binding energy per nucleon given in Table42-1 the plutonium isotope ^{239}Pu. The mass of the neutral atom is 239.052 16 u.](https://toppr-question-images.s3.ap-southeast-1.amazonaws.com/question_images/1781027_04e4aade2f554d32a751f3a9f5814c84.jpg)
Verify the binding energy per nucleon given in Table42-1 the plutonium isotope ^{239}Pu. The mass of the neutral atom is 239.052 16 u.
![Analytical Procedure for Estimating the Gravitational Constant with Nuclear Binding Energy of Stable Atomic Nuclides and Squared Avogadro Number Analytical Procedure for Estimating the Gravitational Constant with Nuclear Binding Energy of Stable Atomic Nuclides and Squared Avogadro Number](http://pubs.sciepub.com/faac/1/2/4/image/tab1.png)
Analytical Procedure for Estimating the Gravitational Constant with Nuclear Binding Energy of Stable Atomic Nuclides and Squared Avogadro Number
![Figure 1 from Understanding Nuclear Binding Energy with Nucleon Mass Difference via Strong Coupling Constant and Strong Nuclear Gravity | Semantic Scholar Figure 1 from Understanding Nuclear Binding Energy with Nucleon Mass Difference via Strong Coupling Constant and Strong Nuclear Gravity | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/c424f5ef6f2590143c0f7eb48898f40313bc1102/11-Table2-1.png)
Figure 1 from Understanding Nuclear Binding Energy with Nucleon Mass Difference via Strong Coupling Constant and Strong Nuclear Gravity | Semantic Scholar
![Table 6 from A Large Nuclear Gravitational Constant and its Universal Applications | Semantic Scholar Table 6 from A Large Nuclear Gravitational Constant and its Universal Applications | Semantic Scholar](https://d3i71xaburhd42.cloudfront.net/a883697ce5a9c4b7e00cb0fbd451101834b7769e/8-Table6-1.png)