[" 2.In a star three alpha particles fused together to form "6C^(12)" nucleus.Calculate the energ "],[" released in the reaction."],[" Given : Mass of "2He^(4)=4.002604" amu,mass of "6C^(12)=12.00000amuquad " (UPB "2016,1]

In a star, three alpha particle join in a single reaction to form ._(6)C^(12) nucleus. Calcuate the energy released in the reaction Given : m(._(2)He^(4)) = 4.002604 am u, " " m(._(6)C^(12)) = 12.000000 am u

Assuming that in a star, three alpha particle join in a single fusion reaction to form ._(6)C^(12) nucleus. Calculate the energy released in this reaction. Given mass of ._(2)He^(4) is 4.002604 a.m.u. and that of ._(6)C^(12) is 12 a.m.u. Take 1a.m.u. =931MeV.

What is the significance of binding energy per nucleon of a nucleus ? (ii) in a certain star, three alpha particles undergo fusion in a single reaction to form ""_(6)^(12)C nucleus. Calculate the energy released in this reaction in MeV. Given : m(""_(2)^(4)He)=4.002604u and m(""_(6)^(12)C)=12.000000u

In a certain star, three alpha particles undergo fusion in a single reaction to form 6 12 ​ C nucleus. Calculate the energy released in this reaction in MeV. Given: m( 2 4 ​ He)=4.002604 u and m( 6 12 ​ C)=12.000000 u.

(a) (i) briefly describe binding energy per nucleon. (ii) In a certain star, three alpha particles undergo fusion in a single reaction to form ._(6)^(12)C nucleus. Calculate the energy released in this reaction in MeV. Given : m(._(2)^(4)He) =4.002604 u and m.(._(6)^(12)C)=12,000000u . (b) wavelength of the 1 st line (H_(alpha)) of Balmer series of hydrogen is 656.3 nm. Find the wavelength of its 2 nd line (H_(beta)) .

Three prop -particles ( m_prop = 4.0026) amu are combined to form a C^12 nucleus. The energy released will be

Helium nuclei combine to form an oxygen nucleus. The energy released in the reaction is if m_(O)=15.9994 "amu" and m_(He)=4.0026 "amu"