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upper R comma upper Delta rho right-parenthesis equals left-bracket upper V upper Delta rho upper F Subscript s Baseline left-parenthesis q comma upper R right-parenthesis right-bracket squared"/> Radius, R (), Scattering contrast, Δρ Spherical shell P(q) = [Ks(q, R₁, Δρ) − Ks(q, R₂, Δρ(1 − μ))]² Ks(q, R, Δρ) as for a homogeneous sphere as above (other parameterizations are possible) Outer radius R₁ with shell scattering contrast Δρ Inner radius R₂ with core scattering contrast Δρ(1−μ) Gaussian polymer chain –Debye function (see Section 1.8 for derivation) I₀, forward scattering intensity Rg, radius of gyration (b, statistical segment length) Sphere with attached Gaussian chains (used for block copolymer micelles) [52, 53] where and with Nc, aggregation number R, core radius Rg, radius of gyration of attached chains d, displacement of chains (for non‐penetration into core, d ≈ 1) Δρs, scattering contrast of spherical core Δρc, scattering contrast of attached chains Ellipsoid of revolution (spheroid) Ks(q, R, Δρ) as for a homogeneous sphere as above (other parameterizations are possible) Radius in polar direction Rp Equatorial radius Re = νRp Scattering contrast, Δρ Tri‐axial ellipsoid P(q) = ∫ [Ks(q, R(a, b, c, α, β, Δρ)]² sin αdαdβ R(a, b, c, α, β) =[(a²sin²β + b²cos²β)sin²α + c²cos²α]^1/2 Ks(q, R, Δρ) as for a homogeneous sphere as above (other parameterizations are possible) Semi axis lengths a, b, c Scattering contrast, Δρ Rectangular parallelepipedons (including cubes) Where Edge lengths a, b, c Scattering contrast, Δρ Circular cylinder

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