Answer to Question #162545 in Optics for joel

From the geometry of the problem (sketch of the problem), we can see that distance y from the central maximum to the first-order minimum to the first-order minimum can be found as

"tan\\theta = \\large\\frac{y}{L}" (1)

where L is the distance from the window (slit) to the wall (screen) and angle "\\theta" is the angle at which we are observing the minimum, which can be calculated using the expression.

"asin\\theta = m\\lambda" (2)

In equation (2) a is the width of the window, m = "\\pm1, \\pm2,..." is an order of the diffraction (in our case m = 1 because we are interested in the first-order minimum.) and "\\lambda" is wavelength of the wave. Therefore, we can extract the angle "\\theta" from (2).

"\\theta = sin^{-1}\\large(\\frac{\\lambda}{a})" (3)

and inert it to (1) to get y

"y = Ltan\\theta" (Inserting (3))

"y = Ltansin^{-1}\\large(\\frac{\\lambda}{a} )" = "6.5m*tansin^{-1}\\large(\\frac{5cm}{36cm})" = 0.912m = 91.2cm