Answer all questions in the space provided. For each problem, label all parts, show equation, substitution...
Answer all questions in the space provided. For each problem, label all parts, show equation, substitution (with units), and answer (with units, scientific notation, rounded to 3 significant figures). 2. A 10 cm high object is located 30 cm from a -20 cm focal length diverging lens. a) Find the image distance. (5 points) b) Find the magnification. (5 points) c) Find the image height. (5 points) d) Describe the image. (5 points) e) An astronaut on her way to...
A 20 cm high object is located 50 cm from a +20 cm focal length converging lens. a) Find the image distance. b) Find the magnification. c) Find the image height. d) Describe the image, e) What is the de Broglie wavelength of a 1.00 x 10-2 kg bullet traveling at the speed of sound 343 m/s?
Show all work and diagrams for max rating. 4. An object is placed 30 cm to the left of a converging lens of focal length f1 = + 20 cm A second lens of f2 = -40 cm sits a distance L to the right of the first lens. a) Find L such that the final image formed is located 30 cm to the to the right of lens 2. b) Calculate the overall lateral magnification of the final image....
Could you please show all of the steps taken in solving the problem and explain the process fully, using sentences/phrases (if possible) to understand why those steps were taken and why you got that answer. Also could you please draw a diagram with any applicable variables/values to help visualize the problem better. Thank you in advance for all the help! A 1.20-cm-tall object is 50.0 cm to the left of a diverging lens (lens 1) of focal length of magnitude...
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....
please answer correctly asap 1 1 Problem 2: Two lens system (3 points) When two thin lenses are in contact, the combination may still be considered as a thin lens. The focal distance of the combination, fc, is given by 1 ==+ eq. (1) fc fi 12 where f and 12 are the focal distances of the two lenses in contact. Assume two converging lenses (10 cm and 20 cm focal distances) are in contact and do -15 cm. a)...
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...
Please provide specific explanations for each question. I do not know any materials for these questions, so please teach me specifically and professionally. Thank you a lot. Also, clear handwriting notes are important! 19. A converging lens of focal length 40 cm and a diverging lens of focal length -40 cm are placed 160 cm apart. A 2-cm tall object is 60 cm from the converging lens. Find the location of the final image on the figure. Is it upright...
all questions Part II. Comprehensive questions. Provide as detailed steps as possible in order to receive any partial credit. One point cach, four points in total An object is 20 cm to the left ofa lens of focal length +10 cm. A second lens, of focal length +22 cm, is 28 cm to the right of the first lens. (a) Find the distance between the ORIGINAL OBJECT and the FINAL IMAGE. A n t. => 1, -2 3282 ( 20)...
Page < 3 > or o c) Two converging lenses are given with an object. All focal points are shown. Use the thin-lens tracing technique to sketch the final image formed by the two lenses below. d) Find the distance of the final image with respect to the right lens, ifs - 10 cm and f-5.0 cm and 6.0 cm for the left and right lenses, respectively. The distance between lenses are 20 cm. & $ 00 96 5 9...