Homework Statement
Two converging lenses having focal lengths of f1 = 12.5 cm and f2 = 19.5 cm are placed a distance d = 49.0 cm apart as shown in the figure below. The image due to light passing through both lenses is to be located between the lenses at the position x = 33.0 cm indicated. (a)...
Practical question: Will placing a clear UV filter over a magnifying lens inhibit the ability of that lens to focus sunlight to the degree necessary to produce fire?
I have a window with several "bullseye glass" panels in my home and have noticed that when the bright winter sun passes through...
Homework Statement
A collimated beam from a white-light source is incident normally on a transmission grating with 500 lines per mm. The transmitted light then passes through a lens which is used to project the visible (380–780 nm) spectrum of the light source on to a strip of photographic film...
Hello All.
I'm working on a project to build an infrared spotlight which will hopefully light up a distant object so that I can see it on an IP enabled night vision camera. The lens problem seems very straight forward, but I could use some help. Per the attached diagram, I want to focus the...
< Mentor Note -- thread moved to HH from the technical physics forums, so no HH Template is shown. Also, thread title edited to make it more descriptive. >
The question is asking me to draw a diagram to show how, in the laboratory you would use two rectangular blocks of wood and a metre rule...
Homework Statement
A thin double convex lens of focal length f is broken down into two halves at the axis. The two haves are then combined, as shown in the figure. What will be the focal length for the arrangements...
Homework Statement
the focal point is said to be real and positive for concave mirrors and virtual and negative for convex spherical mirrors. what if the problem gives you the focal point for a spherical convex as 15 cm. am I supposed to take it that the the focal point should be plotted one...
Homework Statement
The barrel of a compound microscope is 15.9 cm in length. The specimen will be mounted 1.17 cm from the objective, and the eyepiece has a 5.00 cm focal length. Determine the focal length of the objective lens.Homework Equations
I am using the mirror equation.
The Attempt at...
Homework Statement
A biconvex lens of refractive index ##n## and radius of curvature ##r## and focal length ##f## floats horizontally on liquid mercury such that its lower surface is effectively a spherical mirror. A point object on the optical axis a distance ##u## away is then found to...
Homework Statement
An object is placed 12.8 cm to the left of a diverging lens of focal length -6.35 cm. A converging lens of focal length 12.8 cm is placed a distance of d to the right of the diverging lens. Find the distance d that places the final image at infinity
Homework Equations...
Homework Statement
An arrow h0 = 2.20 cm long is located 74.0 cm from a lens, which has a focal length = 30.6 cm. If the arrow is perpendicular to the principal axis of the lens, as shown in the figure below, what is its lateral magnification, defined as hi/h0?
I am given: ho=2.20 cm. do 74.0...
Homework Statement
A diverging thin lens and a concave mirror have focal lengths of equal magnitude. An object is placed (3/2)f from the diverging lens and the mirror is placed a distance 3f on the other side of the lens. Using Gaussian optics, determine the final image of the system after two...
Hi, I'm trying to solve the following problem:
"What is the optical power (in dioptres) of a concave-convex eyeglass lens (n = 1.5) with the radiuses r1 = 12cm and r2 = 18cm?"
The attempt at a solution:
I'm usually solving such questions with the following equation:
## \dfrac{1}{f} =...
Homework Statement
I have to find the ray transfer matrix for a Plano convex lens, with a 5 cm radius and refraction index n=1.8.
I'm supposed to use the paraxial approximation.
Attached a homemade picture of the lens.
Homework Equations
Refraction at a curved surface:
\begin{pmatrix}
1 & 0\\...
If the plane surface of a plano-convex lens in silvered then which of the following statements is true?
1. it acts like a convex mirror
2. it acts like a concave mirror
3. it acts like a concave lens
4. no changemy attempt---
the incident ray on the convex surface of the plano-convex will...
The energy of photon is $$E=\frac{hc}{\lambda}$$
Now if we have an isotropic point light source of power P,
Number of photons $$N=\frac{P}{E} = \frac{P \lambda}{hc}$$
Hence one can find the change in momentum and hence the force exerted by a beam or light sources.
But let's say we keep an...
If I have a parallel beam of light parallel to x-axis, with the speed of light varying from bottom to top. Let it decrease from bottom to top. (To get such a beam one can pass the beam through a glass slab normal to its surface, whose refractive index increases linearly from bottom to top). Now...
I was thinking about the situation given my text about a plano convex lens which was produced with a manufacturing defect. It's plane surface is tilted outwards by a small angle 'z'. In the text its written that when a parallel light beam enters the lens parallel to x-axis , it will still be...
Hello,
I've come across an problem that requires the lens to be at least about 350 mm away from the object.
Object to be examined is 80 mm tall and imaging plane is either 11 mm or 25 mm tall. I've tried to calculate required focal length, but have not succeeded. Distance from lens to imaging...
Homework Statement
How we can determine The diameter of the lens of the camera approximitly that this picture took with that?
( we know that lens of the camera made by some parts but we count them as a thin one in Practical calculations )
Homework Equations
m = q / p 1/f = 1/q + 1/p f =...
Hello!
As this is my first post - I'm Mike from Poland, currently studying product design on Academy of Fine Arts in Warsaw.
I'm working on a sculpture - light installation.
I want to achieve an effect of a regular beam of white light - light cylinder in slightly opaque water. Sort of similar...
Why do high end camera modules have so many glass lenses, apart from the necessary lenses for focus and zoom why is it that in cameras like DSLR cameras there are so many low power lenses where a few high power ones would work do the same job, do the lenses diffract light differently when...
Homework Statement [/B]
B) Is the image real or virtual? Explain.
C) Using the lens equation, find the image distance.
2. Homework Equations
1/di + 1/do = 1/f
The Attempt at a Solution
A)
B) The image is real because it is on the opposite side of the lens as the source of light.
C) do =...
So I've been doing some experiments, using bottles filled with various liquids and timing how long they take to burn paper which is placed at the focal point (where the light was focused). I've noticed that using denser liquids with high refractive indexes lower the focal length, and thus...
Homework Statement
Given a system composed of a convergent lens and divergent lens (separation d between), how do I best calculate the focal length of the divergent lens?
What is the best way to set up the system (converging lens first? diverging lens first?). There is plenty of documentation...
I have a nearly afocal telescope. I want use a telecentric lens with this telescope. My question is that ı need a telescope focal point or ı can use a telecentric lens directly with this afocal telescope?
Greetings,
I don't have a magnifying glass/convex lens otherwise I would try to confirm this by experiment. Maybe I'll get one soon but to get things started. Let's say you have an object, with its own light source, and a convex lens with focal point f. The object is beyond 2f away from the...
So for BiConvex Lenses, increasing the lens radius (by making the lens fatter) brings the image and focus closer to the lens, thus making it smaller given constant object position. As demonstrated in this demo
http://micro.magnet.fsu.edu/primer/java/lenses/lensvariations/index.htmlYet for the...
Homework Statement
A simple method for determining the focal length of a negative lens is shown below. Prove this is true.
Homework Equations
The Attempt at a Solution
The linear magnification formula relates magnification, the distance from the lens to the image (i), the distance from...
Posted a while back but to no avail. I've since done some tinkering but need a little bit of help perfecting the math.
I've constructed an experimental version of the above set up with success. Moving the plano-concave element away from the plano convex element brings the focal point towards...
Homework Statement
There is a small shiny object in a big aquarium, which is formed like a cuboid and filled with water. The plan site of a plano-convex lens with a focal length f is put on the wall of the aquarium from outside. The object is located on the optical axis of the lens.
The...
Diverging lens has focal length 6mm and image magnification 0.5. What is the distance between object and lens?
I used the fact that distance image to lens/distance object to lens = 0.5 and the lens maker formula with f=-6 and combined the two formula but this gives distance = 18mm, when answer...
A window of a submarine is 30 cm thick, and is underwater. The index of refraction of the window is 1.65. The index of refraction fo th eocean is 1.35. The index of refraction inside the submarine is 1.00.
A scuba diver is 1 meter away from thw window. Where does his image form?I used n1/d_o...
Application:
to measure the thermal strain of optical lens. Due to temperature variation the lens surface is expanding / contracting in radial direction with two extreme operating temperature. (-40C to +70C )
Optical lens is SF56A (CTE - 7.9*e-6 per Kelvin)
What to do:
I need to measure...
Homework Statement
A lens with focal length fo = 9 cm forms an image of an object placed a distance d=3.7fo to the left of the lens, onto a screen to the right of the lens. The distance L from object to image is fixed. The lens is now moved toward the screen a distance x until an image is...
New to the forum but stumbled upon this and thought it might be beneficial to query more scientifically minded individuals. I am a filmmaker and use a variety of lenses to acquire certain looks. One of which is anamorphic cinematography. (http://www.red.com/learn/red-101/anamorphic-lenses)...
Hello everyone!
I recently bought a small raspberryPi board, with its small "camera board".
(link for camera reference)
I want to use a CS lens on this camera (CS lens from the security camera industry).
I have been able to attach the lens, and it focuses very good, yet not "excellent"...
Hello Forum,
The numerical aperture NA of a lens is usually a parameter (adimensional) that indicates the lens ability to collect light. The concept of NA is usually introduced in fiber optics where we are concern with launching light into the fiber. But NA is also discussed in microscopy...
I attached a picture with 3 questions?
My first question is, I know that for a convex or concave mirror, If I shine a light at an angle to the middle of the mirror the light will reflect with the same angle. Will the angle be the same if I shine the light at the concave/convex mirror if it...
Homework Statement
Hello!
I need to find a local linear increase in the field of the lens.
I have Listing of Field Curvature Data.
It contains vectors of - Y height, Tan Shift, Sag Shift, Real Height, Ref. Height, Distortion.
I can not understand how these data get what I need.
Homework...
Homework Statement
A lens of power of -5.0D has a surface which is convex of radius of curvature of 15.0cm. The lens is made of material of refractive index of 1.50.
What's the radius of the other surface of lens?
Homework Equations
The Attempt at a Solution
since power = 1/f...
Homework Statement
by taking the lower curvature as r1 , and the upper curvature as r2 ,
i don't know whether r1 is 20cm , r2 is 10cm or vice versa.
But according to the ans r1= 10 cm , r2= 20cm . why is it so?
Homework Equations
The Attempt at a Solution
Homework Statement
please refer to the photo,
Homework Equations
The Attempt at a Solution
why can't I directly use the lens maker formula to get the ans ?
my working is 1/f = ( (1.5-1.33) /1.33) x ( (1/20) + 0 ) ...finally , i get my f = -160cm.
the radius of curvature of...
Homework Statement
referring to the notes attached , r1 is negative beacuse it's concave to the incident light , r2 is positive bacuse it's convex to the incident light. ( incident light move from left to right. ) , but my another book states that the r1 is and r2 have the same sign , which is...
Homework Statement
A converging meniscus lens is made of glass with index of refraction n = 1.55,
and its sides have radii of curvature of 4.5 cm and 9 cm. The concave
surface is placed upward and filled with carbon tetrachloride which has index
of refraction n' = 1.46. Determine the focal...