Scroll down to see what I need help with... the images are all in order. The first image is the directions, the second is a table that I already completed same as the third. Directions: https://simbucket.com/lensesandmirrors/

Optics Bench - Lenses Purpose: To investigate the effects of varying object location upon the characteristics of the images formed by a converging and diverging lens. To get to the interactive, click the link below. https://simbucket.com/lensesandmirrors/ Getting Acquainted: By default, Optics Bench opens in Lens mode. You should observe a LENS Converging Diverging Converging Lens with its principal axis, a candle, and three sets of incident and reflected rays. See the diagram to the right. Experiment with the environment in the following ways: . Tap and drag the candle back and forth along the axis; 2f 2f observe how the image changes. . Use the focus slider to change the focal length. Notice how f and 2f change locations. Use the height slider to change the image height. Notice how the object can be changed into an arrow or a vertical column of letters (A, B,C). . Notice how the incident rays can be toggled ON and OFF. Notice how the object can be dragged to either side of the lens and this results in the same type(s) of images produced.Purpose: To investigate the mathematical relationship between object distance: image distance and focal length. Procedure for Converging Lens: 1. Set the focal length to 15 cm and record this value in Table 3 below. 2. Set the height of the object to 19 cm. 3. Record image distances and heights for the object distances listed in Table 3. *\"Remember to place negative signs in the appropriate places?\" Table 1 Converging Lens Focai length=15 cm Object Distance Image Distance Image height {cm} {cm} {cm} _ Procedure for Diverging Lens: 1. Set the focal length to 15 cm and record this value in Table 4 below. 2. Set the height of the object to 19 cm. 3. Record image distances and heights for the object distances listed in Table 4. ***Remember to place negative signs in the appropriate places.* * Table 2: Diverging Lens Focal length = -15 cm Object Distance Image Distance Image height (cm) (cm) (cm) 10 5.9 11.3 30 10 6.4 50 11.2 4.3Magnification: Directions: 1. Set the focal length to 15 cm. 2. In Table 5, use the magnification (M) column, to find the following:object distance, image distance, object height, and image height. ***Remember to place negative signs in the appropriate places.*** Table 3: Magnification -- USE A CONVERGING LENS FOR THIS PART ***Something to think about.***What do you think a negative magnification means? Focal length = 15 cm M Object distance Image distance Object height Image height (cm) (cm) (cm) (cm) -0.5 -1.00 -2.00 +2.00 Analysis: 1. Calculate the ratio of Image distance/Object distance for the -2 magnification. 2. Calculate the ratio of Image height/Object height for the-2 magnification. 3. Which of the following is true? Highlight your answer choice. image height > >- image distance image height image distance image height image distance object height object distance object height object distance object height object distance