For the two-lens system shown in the figure, the final image of the object is at the shown location. Find the focal length of the diverging lens.
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- Suppose that an object is placed to the left of a converging lens, creating an image on a screen at 30 cm to the right of the lens. Then, a diverging lens is placed 15 cm to the right of the converging lens and the screen has to be moved 19.2 cm to the right for the image to be in focus. What's the focal length of the diverging lens? Listthe focal length in centimeters with the correct sign.Two converging lenses having focal lengths of f1 = 11.1 cm and f2 = 20.0 cm are placed d = 50.0 cm apart, as shown in the figure below. The final image is to be located between the lenses, at the position x = 32.5 cm indicated. On the left, an arrow originating from a long horizontal line points upward and is labeled "Object." A vertical, convex lens, labeled "f1," is centered upon the horizontal line and is positioned a distance p to the right of the Object arrow. A second vertical, convex lens, labeled "f2," is positioned a distance d to the right of the left lens, and is also centered upon the horizontal line. A second arrow, labeled "Final image," lies between the two lenses at a distance x from the left lens, originates from the horizontal line, and points downward. (a) How far (in cm) to the left of the first lens should the object be positioned? cm(b) What is the overall magnification of the system?(c) Is the final image upright or inverted? uprightinvertedTwo lenses that are a distance x = 30 cm apart are used to form an image. Lens 1 is converging, and the magnitude of its focal length is ƒ1 = 14 cm; lens 2 is diverging and the magnitude of its focal length ƒ2 = 7.0 cm. The object is placed 24 cm to the left of lens 1. Find the location and type (real or virtual) of the image for lens 2.
- Two converging lenses having focal lengths of f1 = 11.2 cm and f2 = 20.0 cm are placed d = 50.0 cm apart, as shown in the figure below. The final image is to be located between the lenses, at the position x = 31.3 cm indicated. On the left, an arrow originating from a long horizontal line points upward and is labeled "Object." A vertical, convex lens, labeled "f1," is centered upon the horizontal line and is positioned a distance p to the right of the Object arrow. A second vertical, convex lens, labeled "f2," is positioned a distance d to the right of the left lens, and is also centered upon the horizontal line. A second arrow, labeled "Final image," lies between the two lenses at a distance x from the left lens, originates from the horizontal line, and points downward.Please type the answer instead of hand writtingThere is a lens combinations between two converging lenses that have focal lengths of f1=13 cm (lens 1) and f2=16 cm (lens 2). They are separated by 56 cm along a horizontal line. There is a lit candle (height ho) placed 36 cm in front of the lens 1 (f1=13 cm). Thus, the separation between the candler and the second lens (f2=16 cm) is 92 cm (image attached) Please draw ray diagram and estimate location of final image
- There is a lens combinations between two converging lenses that have focal lengths of f1=13 cm (lens 1) and f2=16 cm (lens 2). They are separated by 56 cm along a horizontal line. There is a lit candle (height ho) placed 36 cm in front of the lens 1 (f1=13 cm). Thus, the separation between the candler and the second lens (f2=16 cm) is 92 cm (image below) 1. Please calculate actual position of final image and would it be imaginary/real?A converging lens is placed at x = 0, a distance d = 9.50 cm to the left of a diverging lens as in the figure below (where FC and FD locate the focal points for the converging and the diverging lens, respectively). An object is located at x = −1.40 cm to the left of the converging lens and the focal lengths of the converging and diverging lenses are 5.00 cm and −8.50 cm, respectively. HINT An illustration shows a converging lens, a diverging lens, and their respective pairs of focal points oriented such that the x-axis serves as their shared Principal axis. The converging lens is located at x = 0 and the diverging lens is a distance d to the right. A pair of focal points (both labeled FC) are shown on opposite sides of the converging lens while another pair (both labeled FD) are shown on opposite sides of the diverging lens. An arrow labeled O is located between the converging lens and the left-side FC. Between the lenses, the diverging lens's left-side FD is located between…There is a lens combinations between two converging lenses that have focal lengths of f1=13 cm (lens 1) and f2=16 cm (lens 2). They are separated by 56 cm along a horizontal line. There is a lit candle (height ho) placed 36 cm in front of the lens 1 (f1=13 cm). Thus, the separation between the candler and the second lens (f2=16 cm) is 92 cm Please calculate actual postion of final image. Is it real/imaginary?