The magnification of an object is defined as M=h?h, where h? is the height of the image and h is the height of the object. If the image is inverted, then h? is negative.
Place the pencil 90 cm from the lens. What is the magnification of the image (be sure the curvature radius is still 0.6 m and the refractive index is 1.5)?
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The magnification of an object is defined as M=h?h, where h? is the height of the...
this is what they gave us
4. Use the focal length you found in (3), complete the table below and check your work in the simulation. Object Distance (p) Image Distance (9) Magnification Nature of the image (Real or (m) Virtual/upright or inverted) 190 cm 120 cm 90 cm 60 cm 30 cm Online Lab #9 3. Verify the focal length of the lens: a. Set the refractive index (n) to 1.5 and the radius of curvature (R) to 0.6...
AaBbCD A. AaBb C 5. Repeat step 4 for a lens with different property. The refractive index of the lens is 1.7 and radius of curvature of 0.5. Remember to find out the focal length first. In 1 Object Distance (p) Image Distance (9) Magnification (m) Nature of the image (Real or Virtual/upright or inverted) 190 cm 120 cm 90 cm 60 cm 30 cm
a.) Determine the image distance for an object d0 = 6.500 cm
from a diverging lens of radius of curvature 5.200 cm and index of
refraction 1.750. (Express your answer as a positive quantity.)
b.)What is the magnification of the object? (Be sure to insert
the proper sign if needed.)
c.)what is the nature of the image
Determine the image distance for an object d 6.500 cm from a diverging lens of radius of curvature 5.200 cm and index of...
5. What was the focal distance (f) when the radius of curvature was 0.8 and index of refraction was 1.6? 6. Calculate the radius of curvature of a lens with a focal distance of 40.0 cm and an index of 1.2. 7. An object placed 3cm away from a lens projects a real image 0.6m behind the lens. What is this lens focal distance? 8. What is the lens magnification? 9. An object 20.0 cm to the left of a...
An object is located at a distance of 7.00 cm from a thin lens with a radius of curvature of 66.0 mm. The image of the object is inverted. Is the image real or virtual, and how far is the image from the lens? Real, 6.24 cm Virtual, 6.24 cm Real, 116 cm Virtual, 116 cm Real, 2.2 cm A concave spherical mirror with a radius of curvature of 100 cm generates an inverted image at a distance of 2.5...
An object placed 20 cm in front of a lens results in an image being formed 24 cm behind the lens. Each surface of the lens is convex (bulging away from the optical plane) with the same radius of curvature, and the index of refraction of the glass composing the lens is Tiens =1.4. What is the radius of curvature of either side of this lens (to the nearest tenth of a cm)? Note, once again, the focal length of...
gibly drawn to scale ray diagrams showing h ation ng configuration: converging lens of 15em fixed focal length em in length. An object is placed at 0.0 em, can be detected is placed somewhere on an optical bench of 240 and a screen is placed where ever a focused image Use the illustrations on the following pages to construct one ray diagram for each of the following situations, using the basic configuration given above. Situation a) Measuring from the object...
Make the curvature radius 0.6 , the refractive index 1.5, and the diameter 0.6 . Place the lamp so that the source of light is 120 from the middle of the lens (use the ruler).The focal length of the lens is ____________, and the focal plane is ___________ from the lens. 120 cm / 120 cm 60 cm / 120 cm 60 cm / 60 cm 30 cm / 120 cm 60 cm / 180 cm For this lens, when the object is 120 cm away,...
QUESTION 7 An object placed 35 cm in front of a convex lens projects a real image 55 cm behind the lens. What is the magnification of the lens? Enter only the number portion of your answer. Watch your signs! (9) An object 21 cm to the left of a convex lens. The object is 1.0 m in height. What is the height of its image if the lens has a magnification of -2.0? (10) An object 21 cm to...
8. An object is placed 1 m in front of a convex lens with an 80 cm focal length. A convex mirror is then placed 1 m behind the lens. The radius of curvature of the mirror is 50 cm. 1. Where is the final image of the object (the image formed by light that has passed through the lens twice), with respect to the lens? 2. What is the total magnification of the final image? 3. Is the image...