A thick lens has two symmetrical spherical surface (r, = -r, = 3cm) and center thickness of t = 2cm. The refraction index of the lens is n, = 1.5. The lens is placed in air (ng = 1.0). A small object has height of h = 2mm above the optical axis of the lens. The distance between object and the front surface of the lens is d = 4cm. Please using ray transfer matrix (RTM) method to compute: 1) Image position (d') and image height (h'). 2) Describe whether this is a real (or virtual), upright (or inverted), and magnified (or reduced) image. %3D %3D %3D

A thick lens has two symmetrical spherical surface (r, = -r, = 3cm) and center thickness of t = 2cm. The refraction index of the lens is n, = 1.5. The lens is placed in air (ng = 1.0). A small object has height of h = 2mm above the optical axis of the lens. The distance between object and the front surface of the lens is d = 4cm. Please using ray transfer matrix (RTM) method to compute: 1) Image position (d') and image height (h'). 2) Describe whether this is a real (or virtual), upright (or inverted), and magnified (or reduced) image. %3D %3D %3D

Related questions

Q: Random Walk) Statistical Pay ties SUミ u、U U = x tou x =x +Ax (deviasi) lf Mean Deviation is Dū = u-ū…

Q: Compute the wavelength of an X-ray with a frequency of 8.0 x 1018 Hz.

A: Given, Frequency (f) = 8.0 x 1018 Hz We know, Speed of light (c) =3 * 108 m/s also Wavelength (λ) =…

Q: Where is the 1/2 coming from?

A: Write the expression for the distance. Here, v is the distance and Δt is the time difference. In…

Q: if u(x,y) = e sin (y) %3D show that: Uxx +Uyy =0

A: According to the question, ux,y=exsiny Then ux=∂ux,y∂x=∂∂xexsiny=exsiny And…

Q: Find DFT for the sequence [ 0.5 1 1.5-2] using FFT.

A: The FFT algorithm works by recursively dividing the input sequence into smaller sub problems and…

Q: Are there any other potential methods. I thought the same thing but it doesn't seem to be right.

A: Which method should you use to solve the following problems? Methods option: angular…

Q: 5. Gamma rays of energy 0.662 MeV are Compton scattered. (a) What is the energy of the scattered…

Q: Compute the wavelength of an X-Ray with a frequency of 7 x 10^18 Hz

A: The X-ray is the form of the electromagnetic wave. Therefore, the speed of the X-ray will be 3×108…

Q: Part A A 4.9-N hammer head is stopped from an initial downward velocity of 3.2 m/s in a distance of…

Q: In a magnetic field with a density of 2T, the calcium line D2_p1 at a wavelength of 732.6 nm is…

A: Given:- The magnetic field B = 2T The wavelength λ= 732.6 nm The frequency f= 286 Hz. Find:-…

Q: QUESTION 7 1 Angstrom = 10 nm True False

A: 1 Angstrom=10-10m -(1) 1 nm= 10-9m -(2)

Q: How many forces are acting in X Direction? Hint: Draw FBD and break forces into Components

Q: 12. Show that [(u V.V + Vu - V ) dv = [[¸uV· ds. %3D

A: Here we have to use divergence formula

Q: Examine the x-ray photoelectron spectra given below. Considering the peak labels, suggest whether…

A: Introduction: X-ray is a type of electromagnetic wave. It is a highly energetic wave that can even…

Q: Approximately what percentage of the initial fluorescence intensity remains after 3 lifetimes 5% 13…

A: Given:

Q: Define X-rays.

A: X-rays are electromagnetic radiation which has the capacity to penetrate through solids, and can…

Q: Compute the wavelength of an X-ray with a frequency of 2.0 1018 Hz.

Q: wavelength

Q: rite a short notes on application of neutron diffraction.

A: SOlution: Neutron diffraction: the elastic scattering of neutrons, here the neutrons exit the…

Q: Compute the wavelength of an X-ray with a frequency of 8.0 1018

Q: (3.3. The work function of Platinum is twice that of the work function of calcium. If the minimum…

Q: Name five salient features of a stationary anode X-ray tube.

A: Answer: Salient features of stationary anode x-ray tube: (1) Poor heat loading, (2) Low powered…

Q: Derive the optical Theorem: = k m (f(0)) Im

Q: hrom preant in she X-HAy machine ahoe acakmhing Porentiel is 50 ou0 V ah

Q: Detail the theory of UV spectroscopy and its biological applications.

A: Spectroscopy is a broad field of research that examines and interprets the electromagnetic spectra…

Q: if i had a d-spacing of 0.82nm, 0.47nm for a biological hydroxyapatite and i want to find the miller…

A: The steps listed below can be used to get the Miller indices for a crystal plane without applying…

Q: follow the pathway of an electron in the x‐ray tube through to the film plate and explain how an…

A: The extremely high temperature within the filament causes negatively charged elections to be…

Q: The most important properties of x-rays

A: In the given question We have to discuss about the most important properties of X Rays.

Q: Q)prove the threshold energy relation My+m, K = K, =-Q- Mx X, x. min th

Q: Wite the following y=Ss+9 polar eqiuation. as a

A: y=5x+9⇒5x−y=−9 Now let x=rcosθy=rsinθ

Q: What is the cutoff wavelength Amin in pico meters (10-12) of the X-Rays emitted when 32.1 kilo eV…

A: Step 1: Data given: E = 32.1 keV. Step 2: Converting eV into joule:1 ev = 1.6×10−19 JSo, 32.1 keV =…

Q: What are the attributes of DPN in comparision to standard lithography

A: Dip Pen Nanolithography (DPN), a direct-write soft lithography method, is used to develop…

Q: The requirements of the x-rays tube:

Question

Using Ray Trace Matrix Method (with matrices). Thanks

A thick lens has two symmetrical spherical surface (r; = -r2 = 3cm) and center thickness
of t = 2cm. The refraction index of the lens is n, = 1.5. The lens is placed in air (ng = 1.0). A small
object has height of h = 2mm above the optical axis of the lens. The distance between object and the
front surface of the lens is d = 4cm. Please using ray transfer matrix (RTM) method to compute:
1) Image position (d') and image height (h').
2) Describe whether this is a real (or virtual), upright (or inverted), and magnified (or reduced) image.
%3D

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 1 images

SEE SOLUTION Check out a sample Q&A here

GET THE APP

About FAQ Academic Integrity Sitemap Document Sitemap

Contact Bartleby Contact Research (Essays)High School Textbooks Literature Guides Concept Explainers by Subject Essay Help Mobile App

GET THE APP

Privacy

Your CA Privacy Rights

Your NV Privacy Rights

Cookie Policy

About Ads

Manage My Data

bartleby, a Learneo, Inc. business