Hello,I need help with Q15 and Q16.Thank you! **Complete Table 3:**Explore the types of images produced as you vary the position of \( d_o \) using the simulation controls. The table indicates that you will choose \( d_o \) values within the following ranges: beyond \( 2f \), at \( 2f \), between \( 2f \) and \( f \), at \( f \), and between \( f \) and the lens. Once your object is placed within the given range of positions, note the actual position (in cm) for \( d_o \) in Table 3. Fill in the rest of the column with the corresponding values as generated by the simulation.**Table 3: Data table for Activity 3.**| Position of Object | Beyond 2f (cm) | At 2f (cm) | Between 2f and f (cm) | At f (cm) | Between f and lens (cm) ||----------------------------|----------------|------------|-----------------------|-----------|-------------------------|| \( d_o \) | 50.4 | 40 | 29.7 | 19.4 | 9.7 || \( d_i \) | 14 | 13.1 | 11.8 | 9.6 | 6.2 || \( h_i \) | 6.7 | 7.8 | 9.5 | 11.9 | 15.4 || Type of image: real, virtual, or none. | Virtual | Virtual | Virtual | Virtual | Virtual || Inverted or upright | Upright | Upright | Upright | Upright | Upright |**Q15.** Describe the possible images formed by a diverging lens based on Table 3.**Q16.** Is there a location where the object can be placed such that no image is formed? Explain.

Question 15: According to the table, the images formed by a diverging lens are always virtual, erect and diminished. Diminished because magnification (=di/do) is always less than 1.Question 16: Yes, there is one location. Explanation- when object placed at focus point of diverging lens the image is actually formed at infinity, which is not possible to observe, so we consider no image is formed...