Draw a simple diagram using lines and arrows that shows the refraction pattern that caused the bobble head to appear the way it did through the concave lens. Include the following in your diagram: at least 3 light rays the lens focal point
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Draw a simple diagram using lines and arrows that shows the refraction pattern that caused the bobble head to appear the way it did through the concave lens. Include the following in your diagram:
- at least 3 light rays
- the lens
- focal point
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- Draw a simple diagram using lines and arrows that shows the refraction pattern that caused the dime to appear the way it did through the concave lens. Include the following in your diagram: at least 3 light rays the lens focal pointOptics can be subdivided into two categories: Geometrical and Physical. Explain the basic assumption behind each of these categories and give an example of a phenomenon which is explained by each.As shown in the diagram below, two mirrors meet at an angle, ?2 = 154°. The red lines indicate the path a light ray has taken with ?3 = 2°. Determine ?1. ?1 =
- Please AsapAn object is placed 20 cm behind a concave mirror of radius 50 cm. Find the position and magnification of the image. State whether the image is real or virtual, and draw a light ray diagram to show the image.You put a 1.34-cm high candle 9 cm in front of a lens and you see an image with di = -6.09 cm. On your paper, draw: the lens (draw this as a diverging or converging lens based on the focal length) the optical axis the candle three rays from the object to the image. These rays should reach the lens traveling: parallel to the axis toward the center of the lens toward the focal point (note: for a diverging lens, this would be the focal point on the opposite side as the object) the image a box with the following information about the image: real or virtual upright or inverted magnified, reduced or same size In the space below enter the height of the image in centimetres. If it is inverted, the height will be negative.
- The following figure shows an object near a different thin lens, and one of the principal rays. The tick marks are 3 cm apart. Calculate the magnification of the lens. object lensAn object is placed inside the focal point of a converging lens, as shown in the figure. Draw a ray diagram (with a ruler and a pencil/pen!) and show where the image is located. F F