(i) Explain how the brightness of the image captured by an optical imaging system is determined...
(i) Explain how the brightness of the image captured by an optical imaging system is determined by the f-number of the imaging lens. (ii) Describe the depth of field for an imaging system.
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(i) Explain how the brightness of the image captured by an
optical imaging system is determined...
(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...
please answer me, thanks. As shown in the figure, there is an optics system consisting of...
please answer me, thanks.
As shown in the figure, there is an optics system consisting of field stop (FS), lens (f, focal distance), aperture stop (AS), and screen. The FS diameter is 2f, the lens diameter is 2f, and the AS diameter is f. The screen size is not limited. Answer the questions below.. 1) What is the location and diameter of the Entrence pump (EnP) and exit window (ExW)? 2) What is the magnification formed through this optical system?...
a) i and ii Lab 7 - Optical Instruments Part I: Multiple Lens Systems The main...
a) i and ii
Lab 7 - Optical Instruments Part I: Multiple Lens Systems The main idea we will use to study how light behaves when passing through multiple optical devices is that we can treat each optical device separately and then combine them. We will apply the rules for ray tracing and use the relationships 1 dod, F + and M -- -- for each device one at a time. And then we will combine them using the fact...
physics 1. What is diffraction? How does diffraction affect the appearance of an image? 2. Amount...
physics 1. What is diffraction? How does diffraction affect the appearance of an image? 2. Amount of diffraction depend on how wavelength of the light compares to the hole it’s going through (how?) 3. Where did cameras originate? (Camera Obscura) 4. What invention revolutionized camera technology? (film) 5. What are the four components of a camera (camera back, lens, diaphragm, shutter) How do Cameras Work? ( 6. What are depth of focus and depth of field? How are they imposed...
I don't believe my focal length is correct, can somebody help explain how to get the...
I don't believe my focal length is correct, can somebody help
explain how to get the focal length from a diagram like this?
6. A mirror or lens is placed at the location of the gray box. The solid black horizontal line indicates the optical axis. The dashed vertical line is the location of the optical device. Each box represents 1.00 cm. Two principal rays from the tip of the object are shown. a. Which type of optical device is...
Could you explain how to figure out what lens or mirror is used from these two...
Could you explain how to figure out what lens or mirror is
used from these two principal rays?
5. A mirror or lens is placed at the location of the gray box. The solid black indicates the optical axis. The dashed vertical line is the location of the optical device. Each box represents 1.00 cm. Two principal rays from the tip of the object are shown. → a. Which type of optical device is used here? i. Concave mirror ii....
* Challenge of Men's Body Image:- i) Describe in words how the media depicts men...
* Challenge of Men's Body Image:- i) Describe in words how the media depicts men and their body. ii) Please provide an image. - Explain why picked the image. - How does the image support your argument?
Can you please not only answer this but thoroughly explain how you got this - I...
Can you please not only answer this but thoroughly explain how
you got this - I am struggling
Which of these describe a principal ray for a concave mirror? (Select all that apply.) An incoming ray that is parallel to the optical axis will reflect as though it came from the focal point An incoming ray that comes from the direction of the focal point will reflect parallel to the optical axis An incoming ray that reflects off the mirror...
AP PHYSICS 2 FREE-RESPONSE QUESTIONS i. In the side view below, the arrow represents the bright...
AP PHYSICS 2 FREE-RESPONSE QUESTIONS i. In the side view below, the arrow represents the bright object created by the plate. Draw a ray diagram on the figure below that is consistent with your calculations in parts (b)Xi) and (ii). Show at least two rays, as well as the location and orientation of the image. -30 -20 10 20 30 -40 -10 40 i. Explain how your diagram is consistent with your calculated focal length and magnification in parts (b)0)...
Could you please show all of the steps taken in solving the problem and explain the process fully...
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 answer me, thanks.
As shown in the figure, there is an optics system consisting of field stop (FS), lens (f, focal distance), aperture stop (AS), and screen. The FS diameter is 2f, the lens diameter is 2f, and the AS diameter is f. The screen size is not limited. Answer the questions below.. 1) What is the location and diameter of the Entrence pump (EnP) and exit window (ExW)? 2) What is the magnification formed through this optical system?...
a) i and ii
Lab 7 - Optical Instruments Part I: Multiple Lens Systems The main idea we will use to study how light behaves when passing through multiple optical devices is that we can treat each optical device separately and then combine them. We will apply the rules for ray tracing and use the relationships 1 dod, F + and M -- -- for each device one at a time. And then we will combine them using the fact...
I don't believe my focal length is correct, can somebody help
explain how to get the focal length from a diagram like this?
6. A mirror or lens is placed at the location of the gray box. The solid black horizontal line indicates the optical axis. The dashed vertical line is the location of the optical device. Each box represents 1.00 cm. Two principal rays from the tip of the object are shown. a. Which type of optical device is...
Could you explain how to figure out what lens or mirror is
used from these two principal rays?
5. A mirror or lens is placed at the location of the gray box. The solid black indicates the optical axis. The dashed vertical line is the location of the optical device. Each box represents 1.00 cm. Two principal rays from the tip of the object are shown. → a. Which type of optical device is used here? i. Concave mirror ii....
Can you please not only answer this but thoroughly explain how
you got this - I am struggling
Which of these describe a principal ray for a concave mirror? (Select all that apply.) An incoming ray that is parallel to the optical axis will reflect as though it came from the focal point An incoming ray that comes from the direction of the focal point will reflect parallel to the optical axis An incoming ray that reflects off the mirror...
AP PHYSICS 2 FREE-RESPONSE QUESTIONS i. In the side view below, the arrow represents the bright object created by the plate. Draw a ray diagram on the figure below that is consistent with your calculations in parts (b)Xi) and (ii). Show at least two rays, as well as the location and orientation of the image. -30 -20 10 20 30 -40 -10 40 i. Explain how your diagram is consistent with your calculated focal length and magnification in parts (b)0)...
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...
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