C-5Geometric Optics

1The focal length of a single lens

Focal length two lenses

white lens / black lens

a. Was the image created by a single lens smaller or larger than the object?

b. Was the image right side up, or was it inverted?

2Finding the magnification of a lens

Table 1: Magnification Data for a Single Lens

Distance to Paper (cm) / # of squares on the graph paper (unmagnified squares) / # of squares in lens (magnified squares) / Magnification

3Analyzing what you see

a. Draw a ray diagram showing two rays from the same point on the object passing through the lens. The object should be between the near focal point and the lens.

b. Does your ray diagram predict a real image or virtual image? Is the image erect or inverted? Is the image the same size, smaller, or larger than the object?

c. How do the predicted characteristics of the image compare with the actual image you see in the magnifying lens?

4Investigating real images

Object Distance (cm) / Object Height (cm) / Image Distance (cm) / Image Height (cm) / Image Orientation / Magnification

5Analyzing what you observe

a. Make a scale drawing showing the position of the object, lens, and screen. Measure and mark the near and far focal point of the lens. Draw an arrow for an object at the correct object distance from the lens corresponding to one of your experiments.

Draw three rays from the tip of the arrow using the rules on the first page of the Investigation (or from your notes). Where the rays meet is where the image forms.

Measure the image distance from your drawing, and the height of the image. The height of the image is the length of the image arrow from the optical axis to the tip. Make a similar scale drawing for each of your experimental trials.

b. Record the theoretical image distance for each drawing in table 3. Calculate and record the magnification also. The magnification is the height of the image arrow divided by the height of the object arrow.

Object Distance (cm) / Object Height (cm) / Image Distance (cm) / Image Height (cm) / Image Orientation / Magnification

c. How do your ray tracing predictions compare with your actual measured images? Write one or two sentences comparing measured and calculated data.

d. With a prism

6Boundary conditions

No questions in this section