In the experiment, we will be using Snell's law to measure the index of refraction of a material. The incident angle 8, and refraction angle 82 are related by n₁ sin 0₁ = n₂ sin 0₂. Since the angles are measured with uncertainties, the sine of the angles also have uncertainty. The following exercise should help you to get familiar with the uncertainty calculations in this lab. If 0+50=30°± 0.5°, convert 0 into radians. 30° = 0.5⁰ = rad. rad. Calculate the value of sin 8 using degree and radians. sin = You should get the same value for sin if is in radians.

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**Pre-lab: Refraction with Ray Table and Plastic Block** In this experiment, we will use Snell’s law to measure the index of refraction of a material. The incident angle \( \theta_1 \) and refraction angle \( \theta_2 \) are related by \( n_1 \sin \theta_1 = n_2 \sin \theta_2 \). Since the angles are measured with uncertainties, the sine of the angles also have uncertainty. The following exercise should help you get familiar with the uncertainty calculations in this lab. **If \(\theta \pm \delta \theta = 30^\circ \pm 0.5^\circ\), convert \(\theta\) into radians.** \[ 30^\circ = \_\_\_\_\_\_\_\_\_\_\ \text{rad.} \] \[ 0.5^\circ = \_\_\_\_\_\_\_\_\_\_\ \text{rad.} \] Calculate the value of \(\sin \theta\) using degrees and radians. \[ \sin \theta = \_\_\_\_\_\_\_\_\_\_\_\_ \] You should get the same value for \(\sin \theta\) if \(\theta\) is in radians. Refer to the lab manual G-7 to calculate the uncertainty in \(\sin \theta\). \[ \frac{\delta (\sin \theta)}{\sin \theta} = \] \[ \delta (\sin \theta) = \] We usually refer to the side where the ray is incident on the boundary as medium 1, and the side where the ray is refracted as medium 2. If the index of refraction of medium 2 is smaller than that of medium 1, total internal reflection could happen. The critical angle is \(\theta_c\), where \(\sin \theta_c = \frac{n_2}{n_1}\). If \(n_2\) is known, then the index of refraction of the incident side can be calculated using the critical angle \(\theta_c\). If \(n_2 = 1.00\) and \(\theta_c = 40^\circ \pm 1^\circ\), calculate the value of \(n_1\) and its uncertainty. \[ n_1 = \_\_\_\_\_\_\_\_\_\_\_\_ \] \[