Please look at the screenshot attached and answer the questions on the attached screenshot. 1) A)What relationship between the differences and thewavelength best describes your data? Why?a. L2 - L1 = n*1, where n = 0, 1, 2, 3,...b. L2 - L1 = (n+0.5)*^, where n = 0, 1, 2,3,•..Explain below: B) Express & in terms of d and sin 0. C)PLNow, using the small angle approximation, sintan, forangles less than about 20°, solve for y (the position onthe image/screen) in terms of , L and d.D) What is the equation that gives the positions of theminimums along the screen?

A) a) The first relationship is of the path differences between the two interfering waves, for…

1) A) What relationship between the differences and the wavelength best describes your data? Why? a. L2 - L1 = n*2, where n = 0, 1, 2, 3,... b. L2 - L1 = (n+0.5)*^, where n = 0, 1, 2,3 %3D Explain below: B) Express & in terms of d and sin 0. C) | y L Now, using the small angle approximation, sintan, for angles less than about 20°, solve for y (the position on the image/screen) in terms of 1, L and d. D) What is the equation that gives the positions of the minimums along the screen?

1) A) What relationship between the differences and the wavelength best describes your data? Why? a. L2 - L1 = n2, where n = 0, 1, 2, 3,... b. L2 - L1 = (n+0.5)^, where n = 0, 1, 2,3 %3D Explain below: B) Express & in terms of d and sin 0. C) | y L Now, using the small angle approximation, sintan, for angles less than about 20°, solve for y (the position on the image/screen) in terms of 1, L and d. D) What is the equation that gives the positions of the minimums along the screen?