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An Excited U* Nucleus Undergoes Fission into Two Fragments,as

Question 90

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An excited An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV U* nucleus undergoes fission into two fragments,as shown: An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV U*An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV Ba + An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV Kr The following atomic masses are known: An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV Kr: 91.926270 u An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV Ba: 143.922845 u An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV U*: 236.045563 u
What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10-27 kg = An excited U<sup>*</sup> nucleus undergoes fission into two fragments,as shown: U<sup>*</sup> → Ba + Kr The following atomic masses are known: Kr: 91.926270 u Ba: 143.922845 u U<sup>*:</sup> 236.045563 u What is the reaction energy,in MeV,for this process? (1 u = 1.6605 × 10<sup>-27</sup> kg = A) 150 MeV B) 160 MeV C) 170 MeV D) 180 MeV E) 190 MeV


A) 150 MeV
B) 160 MeV
C) 170 MeV
D) 180 MeV
E) 190 MeV

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