Methodical recommendation:
Practice Questions
| Number | Name | Type | Difficulty | Marks | Description |
|---|---|---|---|---|---|
| 1. | Size and nature of image | Other | easy | 2 m. | Solve the question by using magnification theory. |
| 2. | Numerical based on mirror equation | Other | easy | 2 m. | Solve the numerical using mirror equation. |
| 3. | Application of snell's law | Other | easy | 3 m. | Find the angle of refraction using snell's law. |
| 4. | Numerical based on magnification | Other | easy | 2 m. | Solve the numerical using object and image distance. |
| 5. | Numerical based on mirror equation | Other | easy | 4 m. | Solve the numerical using mirror equation. |
| 6. | Numerical based on object and image height | Other | medium | 2 m. | Solve the numerical using the object height and image height. |
| 7. | Magnification with mirror equation - Numerical | Other | medium | 6 m. | Solve the numerical using mirror equation. |
| 8. | Mirror equation and magnification | Other | medium | 3 m. | Solve the numerical using mirror equation. |
| 9. | Basics of mirror | Other | medium | 2 m. | Helps to understand the basic concepts in mirror. |
| 10. | Image formation by concave lens | Other | medium | 2 m. | In this excersie, we will learn the image formation by concave lens. |
| 11. | Magnification with mirror equation - Numerical | Other | medium | 5 m. | Solve the numerical using mirror equation. |
| 12. | Mirror and image formation | Other | medium | 2 m. | Exercise to expertise the terminologies related to mirror. |
| 13. | Structure of human eye | Other | medium | 3 m. | This exercise contains one practice question and it holds three marks. The student has to drag and drop the correct answer; and the question deals with structure of human eye. As an outcome of this exercise, the student will learn about the mentioned concept. |
| 14. | Multiple reflection | Other | medium | 2 m. | Solve the numerical based on multiple reflections of light. |
| 15. | Multiple reflection - Angle of inclination | Other | medium | 3 m. | Solve the numerical based on multiple reflections of light. |
| 16. | Numerical based on focal length | Other | medium | 1 m. | Solve the numerical using radius of curvature |
| 17. | Numerical based on laws of reflection | Other | medium | 5 m. | It contains numerical based on laws of reflection. |
| 18. | Numerical based on mirror equation | Other | medium | 4 m. | Solve the numerical using mirror equation. |
| 19. | Numerical based on radius of curvature | Other | medium | 1 m. | Solve the numerical using focal length. |
| 20. | Object and image height | Other | medium | 5 m. | Solve the numerical using the object height and image height. |
| 21. | Refractive index using snell's law | Other | medium | 3 m. | Practice a problem to find refractive index using snell's law. |
| 22. | Object and image height | Other | medium | 5 m. | Solve the numerical using the object height and image height. |
| 23. | Match the following - Structure of the eye | Other | medium | 3 m. | This exercise contains one practice question and it holds three marks. The student has to enter the correct answer; and the question deals with structure of human eye. As an outcome of this exercise, the student will learn about the mentioned concept. |