The formula to calculate Angle of Emergence is:
\[ e = A + D - i \]
Where:
Angle of Emergence is the angle at which a light ray emerges from a lens, typically measured from the normal to the surface of the lens and is an important parameter in optics and optical systems.
Let's assume the following values:
Using the formula:
\[ e = 0.610865238197901 + 0.15707963267946 - 0.698131700797601 \]
Evaluating:
\[ e = 0.06981317007976 \text{ rad} \]
The Angle of Emergence is 0.06981317007976 rad.
| Angle of Prism (A) | Angle of Deviation (D) | Angle of Incidence (i) | Angle of Emergence (e, rad) |
|---|---|---|---|
| 0.5 | 0.15707963267946 | 0.698131700797601 | -0.041052068118 |
| 0.51 | 0.15707963267946 | 0.698131700797601 | -0.031052068118 |
| 0.52 | 0.15707963267946 | 0.698131700797601 | -0.021052068118 |
| 0.53 | 0.15707963267946 | 0.698131700797601 | -0.011052068118 |
| 0.54 | 0.15707963267946 | 0.698131700797601 | -0.001052068118 |
| 0.55 | 0.15707963267946 | 0.698131700797601 | 0.008947931882 |
| 0.56 | 0.15707963267946 | 0.698131700797601 | 0.018947931882 |
| 0.57 | 0.15707963267946 | 0.698131700797601 | 0.028947931882 |
| 0.58 | 0.15707963267946 | 0.698131700797601 | 0.038947931882 |
| 0.59 | 0.15707963267946 | 0.698131700797601 | 0.048947931882 |
| 0.6 | 0.15707963267946 | 0.698131700797601 | 0.058947931882 |
| 0.61 | 0.15707963267946 | 0.698131700797601 | 0.068947931882 |
| 0.62 | 0.15707963267946 | 0.698131700797601 | 0.078947931882 |
| 0.63 | 0.15707963267946 | 0.698131700797601 | 0.088947931882 |
| 0.64 | 0.15707963267946 | 0.698131700797601 | 0.098947931882 |
| 0.65 | 0.15707963267946 | 0.698131700797601 | 0.108947931882 |
| 0.66 | 0.15707963267946 | 0.698131700797601 | 0.118947931882 |
| 0.67 | 0.15707963267946 | 0.698131700797601 | 0.128947931882 |
| 0.68 | 0.15707963267946 | 0.698131700797601 | 0.138947931882 |
| 0.69 | 0.15707963267946 | 0.698131700797601 | 0.148947931882 |