Hand written solution required

6. Determine the average ny & on. Additionally, determine the relative uncertain average ny = 2.52 average on = .098 relative uncertainty of average n = 3.9 7. Complete the statement below so that it is true. "My trial 3 value of nm was the most precise because its relative un 8. Change the upper half material to Mystery A and change the lower half mate A PHET= 9. For the table below, use the formula for Total Internal Reflection to predict in the table below. After doing so, set the index of refraction for the lower h the smallest angle (relative to the normal) at which no refraction occurs. Th Prediction from Value from lower formula for Scrit | simulation for crit (degrees) (degrees) Trial 1 1.02 25 Trial 2 1.27 Trial 3 1,59 Part B: QuestionsIntroduction For this lab you will use the simulation below to investigate Snell's Law & Total Internal Reflection. O Ray O Wave Material Mystery A 30 60 What is n? 60 -90 90 Material Custom 60 Index of Refraction (n) | 1.02 30 Water Glam Normal Bending Light Intro More Took PRET. = MacBook Air 80 4885. Fill In the table below by using the Index of Refraction slider to set the index of refraction (n) for the upper half material to the values in the table below, record the angle of refraction joy], and then use Snell's Law to calculate the index of refraction for Mystery A (nu]. To determine the uncertainty of that calculation (s.). use the formula showm above the table on the left. Additionally, determine the relative uncertainty of wich ny by using the formula above the table on the right. The relative uncertainty lets you know how precise your value is (smaller is better). relative uncertainty 100 ni relative uncertainty of nm [degrees) (95) Trial 1 1.19 25 2.55 4 56 Trial 2 1.38 2.5 3.84 Trial 3 1.59 35 2.51 321 5. Determine the average ny & 4. Additionally, determine the relative uncertainty of the prerage ry Margo ny = 2.52 relative uncertainty of average n = 39 7. Complete the statement below so that It is true. value of ne was the mood precise because its rojalive uncertainty was the lowellB. Charge the upper half material to Mystery A and change the lower half material to Air. After doing so, It should look like the screenshot below, Notice that total internal reflection is occurring- 0. For the bible below, use the formula for Total Internal Reflection to predict what the critical angle will be. For this calculation, use the average n value you previously determined and the appropriate n value listed In the table below. After doing so, set the index of refraction for the lower half material imo) to the appropriate value listed in the table below. Then determine the critical angle by moving the laser and finding the smallest angle (relative to the normal) at which no refraction occurs, This angle is the critical angle. Record it in the table below. Prediction from Value from formula for On |simulation for air (degrees) (degrees) Trial 1 1.02 Trial 2 1,27 Trial 3 1.599. For the table below, use the formula for Total Internal Reflection to predict in the table below. After doing so, set the index of refraction for the lower the smallest angle (relative to the normal) at which no refraction occurs. T Prediction from Value from lower formula for ecrit simulation for crit (degrees) (degrees) Trial 1 1.02 90 X Trial 2 1.27 Trial 3 1.59