Use matrix methods to find the image location and magnification in the optical system shown in...
6. Shown in the figure below is a system containing an object, and two lenses. Use the shapes of the lenses in the figure to decide whether they are converging or diverging optical elements. 1f1=8 cm |f1-30 cm --- 1 15 cm 4 cm (a) Find the image location and magnification of the first lens (assuming that only this lens exists). Specify this image location, dil, as some number of centimeters to the left or to the right of this...
Consider the optical system shown in the figure. The lens and mirror are separated by d = 1.00 m and have focal lengths off, = +89.0 cm and f2 = -48.8 cm, respectively. An object is placed p = 1.00 m to the left of the lens as shown. Object Lens Mirror 1.00 m 1.00 m i (a) What is the distance (in cm) and location of the final image formed by light that has gone through the lens twice?...
perform a ray trace to find the image location and magnification for the following lens systems, also indicate if the image is real or virtual for each case. (a) d0=9cm, f=3 com and (b) d0=12 cm, f=-4 cm
2 Find the final image and total magnification by accurate ray tracing and by calculation. A diverging lens Llwith focal point F1 is to the left of a converging lens L2 of focal point F2. An arrow to the left of L1 is being observed through the two lenses. a Draw an accurate ray diagram to find the image of the arrow formed by the two-lens system. Use a ruler. Be careful. Label your first image and the final (second)...
2. The separation between two thin lenses (fl = +20 cm, left, and f2 -15 cm right) is 30 cm. An object is located 40 cm away on the left of the positive lens. (a) Find the location and magnification of the final image and describe the image (b) Find the matrix of this two-lens system, and use the matrix to locate the final image. (c) If the object is located at infinity, where is the final image?
(A) Draw the ray diagram to find the approximate location of the image (use the provided sketch and a ruler, you must turn this sheet to be graded with our rays on it). 6.0 cm +-13 cm- Lens 1 Lens 2 Fi F. F. 22 cm 40 cm (B) Find the final image distance as measured from lens 1 to the final image. (C) What is the magnification of this image?
(optical engr) An optical imaging system includes two thin lenses. The first lens has focal lengths f1 = 5 cm and f2 = 10 cm. The distance between the 2 lenses is 5 cm. An object with height h = 2.5 cm is placed 15 cm before (to the left of) the first lens. A. Use the lens equations to compute final image location and image size of the object in this two lens optical imaging system B. Plot an...
An image system is mapping the object into the image as shown
below. Find the magnification and all wavefront
aberrations.
4. Two lenses /¡ and f2 are separated by a distance d. a) Evaluate the ray transfer matrix that describes the optical system. b) What is the effective focal length of the optical system when d-fi +2? c) When d-fi+f2, what is the angular magnification of the system? d) Under what circumstances is the image of an object at infinity inverted? e) What optical instrument is this?
4. Two lenses /¡ and f2 are separated by a distance d. a)...
Giving an optical system compose of two lens system. Lens 1 focal length = 10-cm, Lens 2 focal length = 5-cm. The distance between the two lenses L = 50-cm. An object is 30 meter away from Lens 1, with height of 10-cm (a) Setup the equation, that solve the image location and the magnification, at each lens? (b) Solve the image location, magnification, and height at each lens? (c) If you want the object to have a final magnification...