If you post a from Goodman (edition, chapter, problem number), I can walk you through the reasoning step-by-step without copying the manual. Would that help?
Further Reading:
Joseph W. Goodman’s Introduction to Fourier Optics is widely considered the authoritative text for understanding the mathematical and physical principles governing how light behaves in optical systems. By treating optical phenomena through the lens of linear systems and Fourier analysis, Goodman provides a framework for predicting and controlling light propagation, which is essential for modern engineering applications ranging from microscopy to holography . Core Concepts and Thematic Overview introduction to fourier optics goodman solutions
. The core "solution" the book provides is a unified mathematical framework—Fourier analysis—that allows scientists and engineers to treat optical systems as linear filters, much like electrical circuits or communications channels Core Concepts and Methodologies If you post a from Goodman (edition, chapter,
: You can find detailed walkthroughs for key problems (e.g., Problem 4-12 on diffraction gratings or Problem 2-14 on the Wigner distribution) on Studocu and Scribd . The core "solution" the book provides is a