(optical engr) An optical imaging system includes two thin lenses. The first lens has focal lengt...
(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 optical ray tracing diagram of this two lens optical imaging system from the object image plane (mark two image locations through the first and the second lens)
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(optical engr) An optical imaging system includes two thin lenses. The first lens has focal lengt...
Two lenses are placed on an optical axis. The first lens is a has a focal...
Two lenses are placed on an optical axis. The first lens is a has a focal length of f1 = -9.0 cm and the second lens has a focal length of f2 = 16 cm. The two lenses are separated by 24 cm. A 4 cm tall object is placed 5 cm in front of the first lens. “In front of means it is not between the lenses. a) Draw a picture of the setup b) Find the image position...
Two lenses are placed on an optical axis. The first lens is a has a focal...
Two lenses are placed on an optical axis. The first lens is a has a focal length of fı = -9.0 cm and the second lens has a focal length of f2 = 16 cm. The two lenses are separated by 24 cm. A 4 cm tall object is placed 5 cm in front of the first lens. “In front of means it is not between the lenses. a) Draw a picture of the setup b) Find the image position...
An object 3.3 mm high is on the optical axis of two lenses with focal lengths...
An object 3.3 mm high is on the optical axis of two lenses with focal lengths f1 = +5.0 cm, f2 = +10 cm. The object is 6.4 cm to the left of the first lens, and the second lens is 32 cm to the right of the first lens. Find the position (relative to the second lens) and the size of the final image by calculation.
Two lenses are placed on an optical axis. The first lens is a has a focal...
Two lenses are placed on an optical axis. The first lens is a has a focal length of fi = -9,0 cm and the second lens has a focal length of f = 16 cm. The two lenses are separated by 24 cm. A 4 cm tall object is placed 5 cm in front of the first lens. "In front of means it is not between the lenses. a) Draw a picture of the setup b) Find the image position...
3. Consider the compound optical system shown in the diagram, where two thin lenses of focal...
3. Consider the compound optical system shown
in the diagram, where two thin lenses of focal lengths 7.5
cm (left lens) and 8.5 cm (right lens) are separated by a
distance 32 cm.
a) If an object is placed a distance do =
15.3 cm to the left of the first lens (the left one) as
shown in the figure, how far to the right of that lens, in
centimeters, is the image formed?
b) What is the magnification of...
Giving an optical system compose of two lens system. Lens 1 focal length = 10-cm, Lens...
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...
Two thin lenses with focal lengths of magnitude 18.0 cm, the first diverging and the second...
Two thin lenses with focal lengths of magnitude 18.0 cm, the first diverging and the second converging, are placed 11.00 cm apart. An object 3.70 mm tall is placed 4.75 cm to the left of the first (diverging) lens. (a) Where is the image formed by the first lens located? (b) How far from the object is the final image formed? (c) Is the final image real or virtual? (d) What is the height of the final image? (e) Draw...
Two positive thin lenses are separated by a distance of d. The focal lengths of the...
Two positive thin lenses are separated by a distance of d. The focal lengths of the lenses are f_1 = 10 cm and f_2 = 20 cm. The desired throw of the system, the object to image distance, is T = 80 cm and the desired magnification is M = -1.1. a) Use what you know about the conjugate matrix for a two lens system to solve to the distance between the lenses. Express your answer in cm. b) Where...
The two verticle double headed arrows are the lense, i think?
the
two verticle double headed arrows are the lense, i think?
system consists of two converging thin lenses, ead cm optical of 6.0 An with a focal length and a stop with a diameter of 4.0 cm, arrange d as shown in the figure below. 9.0 1.5 一14.0 all distances in cm A 2.5 cm high object is placed 9.0 cm to the left of the system, as shown. The whole system is in air (n1) (a) Draw an accurate...
Two converging lenses having focal lengths of f1 = 11.1 cm and f2 = 20.0 cm...
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 = 28.7
cm indicated.
(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?
fi f2 Object Final image d
Two lenses are placed on an optical axis. The first lens is a has a focal length of f1 = -9.0 cm and the second lens has a focal length of f2 = 16 cm. The two lenses are separated by 24 cm. A 4 cm tall object is placed 5 cm in front of the first lens. “In front of means it is not between the lenses. a) Draw a picture of the setup b) Find the image position...
Two lenses are placed on an optical axis. The first lens is a has a focal length of fı = -9.0 cm and the second lens has a focal length of f2 = 16 cm. The two lenses are separated by 24 cm. A 4 cm tall object is placed 5 cm in front of the first lens. “In front of means it is not between the lenses. a) Draw a picture of the setup b) Find the image position...
Two lenses are placed on an optical axis. The first lens is a has a focal length of fi = -9,0 cm and the second lens has a focal length of f = 16 cm. The two lenses are separated by 24 cm. A 4 cm tall object is placed 5 cm in front of the first lens. "In front of means it is not between the lenses. a) Draw a picture of the setup b) Find the image position...
3. Consider the compound optical system shown
in the diagram, where two thin lenses of focal lengths 7.5
cm (left lens) and 8.5 cm (right lens) are separated by a
distance 32 cm.
a) If an object is placed a distance do =
15.3 cm to the left of the first lens (the left one) as
shown in the figure, how far to the right of that lens, in
centimeters, is the image formed?
b) What is the magnification of...
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...
the
two verticle double headed arrows are the lense, i think?
system consists of two converging thin lenses, ead cm optical of 6.0 An with a focal length and a stop with a diameter of 4.0 cm, arrange d as shown in the figure below. 9.0 1.5 一14.0 all distances in cm A 2.5 cm high object is placed 9.0 cm to the left of the system, as shown. The whole system is in air (n1) (a) Draw an accurate...
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 = 28.7
cm indicated.
(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?
fi f2 Object Final image d
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