4.Make a sketch of the diffraction pattern to scale. 5.Change the slit width to 0.02 mm and 0.08 mm and make sketches to scale of each of these diffraction patterns. Analysis 1.Divide the distances between side orders by two to get the distances from the center of the pattern to the first and second order minima.Record these values ofy in Table 1.1. 2.Using the average wavelength of the laser(670 nm for the Diode Laser),calculate the slit width twice,once using first order and once using second order.Record the results in Table 1.1. 3.Calculate the percent differences between the experimental slit widths and 0.04 mm.Record in Table 1.1. Questions 1.Does the distance between minima increase or decrease when the slit width is increased? 66 4. Make a sketch of the diffraction pattern to scale. 5. Change the slit width to 0.02 mm and 0.08 mm and make sketches to scale of each of these diffraction patterns. Analysis 1. Divide the distances between side orders by two to get the distances from the center of the pattern to the first and second order minima. Record these values of y in Table 1.1. 2. Using the average wavelength of the laser (670 nm for the Diode Laser), calculate the slit width twice, once using first order and once using second order. Record the results in Table 1.l. 3. Calculate the percent differences between the experimental slit widths and 0.04 mm. Record in Table 1.1. Questions 1. Does the distance between minima increase or decrease when the slit width is increased?