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d d h h; f m 12 6 I 2 -1 4 -0.5 11 6.29 2 -1.14 4 -0.57 10 6.67 2 -1.33 4. -0.66 9 7.2 2 -1.6 4. -0.8 8 8 2 -2 4 - 1 7 9.33 2 -2.67 4 -1.33 6 12 2 -4 4 average 7.9 2 -2 4 5. Was the average of the experimental focal lengths close to the true value of 4? If not, then go back and re-check your measurements and...
I need 4 and 6 and show all work please
4) A 5 cm tall object is placed in front 20 cm. The object is located 20 cm from the spherical mirror of a spherical mirror with a radius of curvature of - a) What is the object distance? b) What is the image distance? c) What is the focal length? d) What is the size of the object? e) What is the size of the image? 1) What is...
12. Real images formed by a curved mirror are always A) on the side of the mirror opposite the object B) on the same side of the mirror as the object and closer to the mirror than the object C) on the same side of the mirror as the object and upright D) on the same side of the mirror as the object and further from the mirror than the focal poi 13. Aray of light passes from, air into...
we did Mirror lab in class and i have the following Questions. 1-explain how virtual images differ from real images. Draw a scenario showing the difference. 2- A spherical mirror produces an image with a magnification of -3. Is this image real or virtual ? Is this image inverted or upright? Is this mirror concave or convex? Explain all your answers. 3- use mirror equations to show that for a plane mirror the image distance is equal to the object...
1. The bending of light as it moves from one medium to another
with different indices of refraction is due to change in what
property of light?
A) amplitude, B) phase, C) frequency, D) speed, E) color
2. A ray of light propagates in air (n= 1.33) and strikes a
sheet of crown glass (n=1.523). If angle of refraction in glass is
35.20 , determine the angle of incidence. A) 30.3 0 , B) 32.80 , C)
35.2 0 ,...
The type of lens is not
given.
(10%) Problem 6: Two lenses are mounted d= 29 cm apart on an optical bench. The focal length of the first lens is fı = 7.9 cm and that of the second lens is f2 = 5.6 cm. An object of height ho = 3.4 cm is placed at a distance of do = 29 cm in front of the first lens. 25% Part (a) Ignoring the second lens for now, at what...
PLEASE ANSWER ALL PARTS, THANK YOU!
Multiple choice Short problems 1. The bending of light as it moves from one medium to another with different indices of refraction is due to change in what property of light? A) amplitude, B) phase, C) frequency, D) speed, E) color 2. A ray of light propagates in air (n= 1.33) and strikes a sheet of crown glass (n=1.523). If angle of refraction in glass is 35.2°, determine the angle of incidence. A) 30.3°,...
I need help answering questions 1-6 please Your group is working to develop and study new proteins. To analyze the composition of a protein mixture you have produced, the protein solution is placed in an electric field. Proteins with different total charges will drift at different speeds in the solution, and can be separated for further analysis. Your group needs to focus an optical apparatus at known positions within the protein solution in order to record an image of a...
This is my physics lab using the Phet "Geometric Optics"
stimulation. Could I please get help with steps 8-10.
0.8 1.53 1.3 No Rays Marginal rays Principal rays Many rays 2nd Point Change Object Show Guides Virtual Image Screen ✓ Ruler curvature radius(m) refractive index diameter(m) ES 40 -SE 100 120 140 160 Step 2: di- the distance between the image and the lens di = 200 cm Drag the ruler to the left and measure the distance between the...
Could someone please help complet Table 1 and Table 2
Lab 12 Concave and Convex Lenses PHYS 1110L Conceptual Physics Lab Name: Date: Results:-- -(90 pts max) OBJECTIVES To demonstrate the formation of images from convex and concave lenses. To identify the type of image formed by convex and concave lenses. - To confirm the lens equations. PART 1 CONVEX LENS 1. Open GOOGLE CHROME or other compatible browser and DISABLE all BROWSER POP-UP BLOCKERS 2. Go to PhET Simulations...