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https://ophysics.com/110.html AD oPhysics: Interactive Physics Simulations Home Kinematics Forces Conservation Waves Light E & M Rotation Fluids Modern Drawing Tools Fun Stuff Concave and Convex

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https://ophysics.com/110.html AD oPhysics: Interactive Physics Simulations Home Kinematics Forces Conservation Waves Light E & M Rotation Fluids Modern Drawing Tools Fun Stuff Concave and Convex Mirrors Concave Mirror: 2f > do > f focus Image icc Object 12 10 Image Characteristics - - 4- - -2 do = 6.69 di = 9.96 Inverted ho = 1.8 hi = -2.69 Real Image hi > hoOnline Lab: Mirrors, Lenses and Image Formation Name: Date : Ray Tracing for Mirrors C 1. Is the diagram above a Concave or a Convex Mirror? 2. Which color is the Ray 1 in the ray diagram? 3. Which color is the Ray 3 in the ray diagram? Image 1. Is the diagram above a Concave or a Convex Mirror? 2. Which color is the Ray 2 in the ray diagram? 3. Based on the location of the object, is the Image Type: Real or Virtual? 4. Is the Image Orientation: Upright or Inverted?Online Mirrors Experiment Setup Instructions. 1. Go to the following website: Concave and Convex Mirrors 2. Figure I shows an example of what you should see on your screen. Concave and Convex Mirrors Concave Mirror: 2f > do > f Image Characteristics do = 6.69 di = 9.96 Inverted ho = 1.8 hi = -2.69 Real Image hi > ho di > 2f Figure 1: Initial Configuration after opening the Concave and Convex Mirrors Simulator 3. Click on the top of the Object arrow. " Move Up or down to adjust the object height, ho. " Move Left or Right to adjust the object distance, do. " For purposes of this lab, each grid square is I cm height and I cm wide. " Place the Object arrow Left of the Mirror for a Concave Mirror. Place the Object arrow Right of the Mirror for a Convex Mirror.Concave Mirrors 1. Place the object to the left of the Mirror at -6 cm. 2. Click on the Object arrow and set the height, to 3 cm. 3. Get the object distance, do. Record. 4. Get the image distance, di- Record. 5. Get the object height, ho. Record this as your object height, h. 6. Get the image height, hi- Record this as your image height, hi 7. Record the Image Type (Real or Virtual): 3. Record the Image Orientation (Upright or Inverted): 9. Place the object to the left of the Mirror at -12 cm. 10. Repeat Steps 2-6. Table 1: Data Results - Concave Mirrors Trial da di -6 (cm) -12 (em) 11. For each trial, Calculate the focal length z using the equation: Record your answers in the Table below. (1) 11. For each trial Calculate the magnification of the image M using the ratio: - Record your answers in the Table below. 13. For each trial Calculate the magnification of the image M using the ratio: - do Record your answers in the Table below. Table 2: Data Analysis - Concave Mirrors Trial M = hi/ho M =-di/do -6 (cm) -12 (em)Convex Mirrors 1. Place the Object arrow Right of the Mirror at 6 cm for a Convex Mirror 2. Click on the Object arrow and set the height, to 3 cm. 3. Get the object distance, do. Record. 4. Get the image distance, di. Record. 5. Get the object height, ho. Record. 6. Get the image height, hi- Record. 7. Record the Image Type (Real or Virtual): B. Record the Image Orientation (Upright or Inverted): 9. Place the object to the right of the mirror at 12 cm. 10. Repeat Steps 2-6. Table 3: Data Results - Convex Mirrors Trial 6 (cm) 12 (cm) 11. For each trial, Calculate the focal length using the equation: Record your answers in the Table below. (2) 11. For each trial Calculate the magnification of the image M using the ratio: - 13. Record your answers in the Table below. 14. For each trial Calculate the magnification of the image M using the ratio: - Record your answers in the Table below. Table 4: Data Analysis - Convex Mirrors Trial M =hi/ha M = -di/do 6 (cm) 12 (cm)Online Lenses Experiment Setup Instructions. 1. Click on the Light menu at the top of the screen and Select the Concave and Convex Lenses simulator as shown in Figure 2. Light E & M Dolar Paprant Ming Paliranian of Light MIRRORS Dosons and Cars Lessis LENS Figure 2: Simulator Selection Menu 2. Figure 3 shows an example of what you should see on your screen. Concave and Convex Lenses Convex Lens: do > 2f f= 4 Image Characteristics Real Image Inverted do = 10 di = 6.67 Ihil

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