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Question 4 5 pts An object is placed at P1 = 10...
can you help me solve theses problems. Etted Jul 30 at 3:52pm ttempt took 240 minutes....
can you help me solve theses problems.
Etted Jul 30 at 3:52pm ttempt took 240 minutes. Question 1 0/5 pts An object is placed 15 cm to the left of a converging lens with a focal length of 12 cm. What is the magnification of the final image with respect to the object? If the image is real, the magnification is negative Please include the minus sign in the answer. Please round your answer to one decimal place. 2.4 Question...
can you please answer these question Question 3 0/5 pts In the figure below, a light...
can you please answer these question
Question 3 0/5 pts In the figure below, a light ray enters a glass slab (whose index of refraction, nglass = 1.594) at point A and then undergoes total internal reflection at point B. Find the initial angle of incidence, 0; in degrees, for which total internal reflection can take place. The medium that surrounds the glass slab is a liquid whose index of refraction, niquid= 1.291. Please round your answer to the nearest...
1.) An object is placed in front of a diverging lens with a focal length of...
1.) An object is placed in front of a diverging lens with a focal length of 17.7 cm. For each object distance, find the image distance and the magnification. Describe each image. (a) 35.4 cm location _____cm magnification _____ nature real virtual upright inverted (b) 17.7 cm location _____ cm magnification _____ nature real virtual upright inverted (c) 8.85 cm location _____ cm magnification _____ nature real virtual upright inverted 2.) An object is placed in front of a converging lens...
An object is placed 7.5 cm in front of a converging lens with a focal length...
An object is placed 7.5 cm in front of a converging lens with a focal length f1 = 2.5 cm. On the other side of the lens is a concave mirror of focal length f2 = 1.5 cm. The mirror is 5.0 cm from the lens. Light from the object passes rightward through the lens, reflects from the mirror, passes leftward through the lens, and forms a final image of the object. ksid tet to What is the distance between...
please help in all sections! F Object When a real object is placed just inside the...
please help in all sections!
F Object When a real object is placed just inside the focal point F of a diverging lens, the image is A) virtual, erect, and diminished. B) real, inverted, and enlarged. C) real, inverted, and diminished. D) virtual, erect, and enlarged. E) virtual, inverted, and diminished. 3. A lens has a positive focal length f. The only way to get a magnification of -1 is to A) place a real object at the focal point....
Problem 3: An object of height 2.8 cm is placed 26 cm in front of a...
Problem 3: An object of height
2.8 cm is placed 26 cm in front of a diverging lens of focal length
16 cm. Behind the diverging lens, and 11 cm from it, there is a
converging lens of the same focal length.
a) Find the location of the final image, in centimeters beyond
the converging lens (such that a negative answer would indicate the
final image is on the same side of the converging lens as the
object).
b) What...
(10%) Problem 10: An object of height 2.8 cm is placed 28 cm in front of...
(10%) Problem 10: An object of height 2.8 cm is placed 28 cm in front of a diverging lens of focal length 16 cm. Behind the diverging lens, and 13 cm from it, there is a converging lens of the same focal length. 25% Part (a) Find the location of the image created by the diverging lens in centimeters relative to the location of that lens. Use the standard sign convention such that your answer will be negative if the...
can you solve this Question 20 5 pts An object is placed to the right of...
can you solve this
Question 20 5 pts An object is placed to the right of a spherical mirror that is concave towards the object. The focal length of the mirror is 20.3 cm. If the object is located 15.3 cm from the mirror, what is the image distance? If your answer is negative, please put the negative sign in the answer box. Please round your answer to one decimal place.
(2) An object is located at a distance of 4 cm from a thin converging lens...
(2) An object is located at a distance of 4 cm from a thin converging lens with focal length of 2 cm. A diverging lens is located 3 cm from the converging lens and 7 cm from the object. The diverging lens has a focal length of -2 cm. Use the thin lens equation to predict the following (a) Location of the final image? to the object? (c) Is the final image real or virtual?
Use ray diagrams to solve problems 10 –13. 10. An object is 10 cm high and...
Use ray diagrams to solve problems 10 –13. 10. An object is 10 cm high and is placed 30 cm in front of a converging lens of focal length 20 cm. Determine the image distance, the image height and the magnification. 11. An object is 10 cm high and is placed 20 cm in front of a converging lens of focal length 20 cm. Determine the image distance, the image height and the magnification. 12. An object is 10 cm...
can you help me solve theses problems.
Etted Jul 30 at 3:52pm ttempt took 240 minutes. Question 1 0/5 pts An object is placed 15 cm to the left of a converging lens with a focal length of 12 cm. What is the magnification of the final image with respect to the object? If the image is real, the magnification is negative Please include the minus sign in the answer. Please round your answer to one decimal place. 2.4 Question...
can you please answer these question
Question 3 0/5 pts In the figure below, a light ray enters a glass slab (whose index of refraction, nglass = 1.594) at point A and then undergoes total internal reflection at point B. Find the initial angle of incidence, 0; in degrees, for which total internal reflection can take place. The medium that surrounds the glass slab is a liquid whose index of refraction, niquid= 1.291. Please round your answer to the nearest...
An object is placed 7.5 cm in front of a converging lens with a focal length f1 = 2.5 cm. On the other side of the lens is a concave mirror of focal length f2 = 1.5 cm. The mirror is 5.0 cm from the lens. Light from the object passes rightward through the lens, reflects from the mirror, passes leftward through the lens, and forms a final image of the object. ksid tet to What is the distance between...
please help in all sections!
F Object When a real object is placed just inside the focal point F of a diverging lens, the image is A) virtual, erect, and diminished. B) real, inverted, and enlarged. C) real, inverted, and diminished. D) virtual, erect, and enlarged. E) virtual, inverted, and diminished. 3. A lens has a positive focal length f. The only way to get a magnification of -1 is to A) place a real object at the focal point....
Problem 3: An object of height
2.8 cm is placed 26 cm in front of a diverging lens of focal length
16 cm. Behind the diverging lens, and 11 cm from it, there is a
converging lens of the same focal length.
a) Find the location of the final image, in centimeters beyond
the converging lens (such that a negative answer would indicate the
final image is on the same side of the converging lens as the
object).
b) What...
(10%) Problem 10: An object of height 2.8 cm is placed 28 cm in front of a diverging lens of focal length 16 cm. Behind the diverging lens, and 13 cm from it, there is a converging lens of the same focal length. 25% Part (a) Find the location of the image created by the diverging lens in centimeters relative to the location of that lens. Use the standard sign convention such that your answer will be negative if the...
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Question 20 5 pts An object is placed to the right of a spherical mirror that is concave towards the object. The focal length of the mirror is 20.3 cm. If the object is located 15.3 cm from the mirror, what is the image distance? If your answer is negative, please put the negative sign in the answer box. Please round your answer to one decimal place.
(2) An object is located at a distance of 4 cm from a thin converging lens with focal length of 2 cm. A diverging lens is located 3 cm from the converging lens and 7 cm from the object. The diverging lens has a focal length of -2 cm. Use the thin lens equation to predict the following (a) Location of the final image? to the object? (c) Is the final image real or virtual?
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