3 y 0 Front View X 4 Z Zo 0 0 Top View n(x, y, zo) X 4 1) Assume a uniform neutron density n(x, y, z)=1.0 [neutrons/cm³] at the surface z = Zo for neutrons traveling in direction = (¸,,,N₂) = (√2/2, 0, √2/2) with energy E = 0.025 eV [illustrated in picture above]. Calculate the total rate at which 0.025 eV neutrons are passing through the 3cm × 4cm surface in direction 2.

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3 y 0 0 Front View X 4 Z Zo 0 0 Top View n(x, y, ²₁) X 4 1) Assume a uniform neutron density n(x, y, z)=1.0 [neutrons/cm³] at the surface z = zo for neutrons traveling in direction = (2,,2₁,2₂) = (√2/2, 0, √√2/2) with energy E = 0.025 eV [illustrated in picture above]. Calculate the total rate at which 0.025 eV neutrons are passing through the 3cm x 4cm surface in direction 2. y

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• Surface Interpretation - Integrate angular neutron flux over a surface SS Sv (F, E,,t)dn de dr Ал - neutrons S Angular Neutron Flux • The angular neutron flux is the product of the neutron velocity and the angular neutron density. y (F.E,,t) = v n(F.E,,t) neutrons cm² eV steradian s Determine what, exactly, you are trying to solve for. neutrons n(r, E,,t) cm³ eV steradian Write an equation that involves the desired quantity as