Question

1 Approved Answer

Posted on Sep 23, 2024

ANY HELP WOULD BE GREAT FOR PART 1 OR 2. PLEASE USE MATLAB. 2G daten (NEACRP L336, homogeneous U0, composition) Group 0.8392 0.0932 3.0846 A.1139

ANY HELP WOULD BE GREAT FOR PART 1 OR 2. PLEASE USE MATLAB.

image text in transcribed

2G daten (NEACRP L336, homogeneous U0, composition) Group 0.8392 0.0932 3.0846 A.1139 z (chi) 1.8980 6.?????? Scattering (column ? row) To\From 1.Aeme 8.8202 0.0aea 2.000 Problemi 1- Theory 1. Show full derivation of the tuulti-group neutron balance in italienile space (-10%). 2. Show multi group Migration and Fission matrix ( - 10%). Problem 2 - 2G eigenvalue/eigenvector problem Scattering (column ? row) 1. Show Migration. Fission niatrix with nuclerical values (-10%). 2. Calculate all eigenvalues/eigenvectors of the neutron balance analytically by "hand calculation* - slow complete derivation and the results (-10%). 3. Calculate all eigenvalues/eigenvectors of the neutron balance using computer software (e.g. MATLAB eis function) - show results (-10%). 4. Calculate the largest eigenvalue and the corresponding eigenvector using power iteration show results after 2 iterations (-10%). ToFron 0.1179 8.8538 8.8381 0.1949 0.1159 0.0005 8.8881 0.5868 8.8769 0.0019 8.8888 8 8.B234 0.1961 8.995 8.2007 8.0081 0.8188 0.1737 0.0246 0.0073 9.6902 8.27870 8.8558 0.0023 .8625 6.35 19 8.8275 1.9761 Power iteration k - I +: =1 doi-1 to MAXIT Qt--B1/ || B ** || k1 - (B ol+AJE ol+1 / (ta." ol+1) end 2G daten (NEACRP L336, homogeneous U0, composition) Group 0.8392 0.0932 3.0846 A.1139 z (chi) 1.8980 6.?????? Scattering (column ? row) To\From 1.Aeme 8.8202 0.0aea 2.000 Problemi 1- Theory 1. Show full derivation of the tuulti-group neutron balance in italienile space (-10%). 2. Show multi group Migration and Fission matrix ( - 10%). Problem 2 - 2G eigenvalue/eigenvector problem Scattering (column ? row) 1. Show Migration. Fission niatrix with nuclerical values (-10%). 2. Calculate all eigenvalues/eigenvectors of the neutron balance analytically by "hand calculation* - slow complete derivation and the results (-10%). 3. Calculate all eigenvalues/eigenvectors of the neutron balance using computer software (e.g. MATLAB eis function) - show results (-10%). 4. Calculate the largest eigenvalue and the corresponding eigenvector using power iteration show results after 2 iterations (-10%). ToFron 0.1179 8.8538 8.8381 0.1949 0.1159 0.0005 8.8881 0.5868 8.8769 0.0019 8.8888 8 8.B234 0.1961 8.995 8.2007 8.0081 0.8188 0.1737 0.0246 0.0073 9.6902 8.27870 8.8558 0.0023 .8625 6.35 19 8.8275 1.9761 Power iteration k - I +: =1 doi-1 to MAXIT Qt--B1/ || B ** || k1 - (B ol+AJE ol+1 / (ta." ol+1) end