tag:blogger.com,1999:blog-5103012763843796418.post1943773874448777712..comments2024-03-25T23:19:14.403-07:00Comments on CHEM-GUIDE: Nuclear reactions, Nuclear energyBinod SHRESTHAhttp://www.blogger.com/profile/11657400117812131801noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-5103012763843796418.post-69197901848015196542017-09-28T06:36:52.198-07:002017-09-28T06:36:52.198-07:00help me sort these isotopes by whether they are mo...help me sort these isotopes by whether they are most likely to undergo fusion or fission.<br />(a) 3He<br />(b) 14C<br />(c) 1 1H<br />(d) uranium-235<br />(e) polonium-239<br />(f) nitrogen-14<br /><br />http://sasuwaphysics.blogspot.com.ng/2016/10/sort-these-isotopes-by-whether-they-are.html<br /><br />Anonymoushttps://www.blogger.com/profile/06238693211021435829noreply@blogger.comtag:blogger.com,1999:blog-5103012763843796418.post-63225819075465040792017-05-16T23:16:27.821-07:002017-05-16T23:16:27.821-07:00Your diagram for nuclear fission does not seem cor...Your diagram for nuclear fission does not seem correct. When I add up the mass of the atom products together, they weight more than the available mass from the uranium isotope. I am currently trying to teach myself nuclear fission to teach my class. When I look at other nuclear fission diagrams the masses do add up to less than the original isotope and the loss of the mass is accounted for by the lost neutrons and release of energy. Can you explain to me what is happening in your diagram? Mizzz Foster https://www.blogger.com/profile/11840440565939718152noreply@blogger.com