College Physics
2nd Edition
ISBN: 9780134601823
Author: ETKINA, Eugenia, Planinšič, G. (gorazd), Van Heuvelen, Alan
Publisher: Pearson,
expand_more
expand_more
format_list_bulleted
Question
Chapter 24, Problem 36P
To determine
The meaning of the term “resolution limit”, and explain it with pictures and ray diagrams. Also describe the characteristic of the device and its affects on resolution limit when light passes through it.
Expert Solution & Answer
Want to see the full answer?
Check out a sample textbook solution
Students have asked these similar questions
First-order Bragg diffraction is observed at 26.0° relative to
the crystal surface, with spacing between atoms of 0.23 nm.
Part A
At what angle will second order be observed?
Express your answer using three significant figures.
VO AZ
?
Submit
Request Answer
Part B
What is the wavelength of the X-rays?
Express your answer using two significant figures.
?
1 =
QUESTION 7
A beam of monochromatic light is diffracted by a slit of width 0.620 mm. The diffraction pattern forms on a wall 1.30 m beyond the slit. The width
of the central maximum is 1.80 mm. Calculate the wavelength of the light in nm. 1 nm = 10-⁹ m
Submit your answer with the correct number of significant figures.
You are required to show your work in the file you submit.
As
You want
telescope that discern objects that are at least 4.40 x 10-7 radians apart.
A.) To achieve this resolution, determine what wavelength should be used if the diameter of the primary mirror is 1.2 m.
B.) A binary star system (two stars in orbit about each other) is 47 ly away. The two stars would just barely be able to be discerned by your telescope. Determine the minimum
distance between the stars. 1 ly = 9.461 x 1015 m.
Chapter 24 Solutions
College Physics
Ch. 24 - Review Question 24.1 Explain why we observe...Ch. 24 - Prob. 2RQCh. 24 - Review Question 24.3 How do the locations of the...Ch. 24 - Review Question 24.4 If we look through a grating...Ch. 24 - Review Question 24.5 Equation (24.6),...Ch. 24 - Review Question 24.6 Stars are so far away that...Ch. 24 - Prob. 7RQCh. 24 - Multiple Choice Questions
1. You shine a...Ch. 24 - Multiple Choice Questions When you shine a very...Ch. 24 - Prob. 3MCQ
Ch. 24 - Multiple Choice Questions If you add a third slit...Ch. 24 - Multiple Choice Questions
5. Why don’t two...Ch. 24 - Multiple Choice Questions You shine a laser beam...Ch. 24 - Multiple Choice Questions
7. What does the...Ch. 24 - Prob. 8MCQCh. 24 - Multiple Choice Questions You shine a green laser...Ch. 24 - 10. Describe a double-slit interference experiment...Ch. 24 - You are investigating a pattern produced on a...Ch. 24 - 12. Give examples of phenomena that can be...Ch. 24 - 13. Give examples of phenomena that cannot be...Ch. 24 - Prob. 14CQCh. 24 - 15. Draw a point-like source of light. What is the...Ch. 24 - Draw two coherent light sources next to each...Ch. 24 - 17. Use the wave front representation to explain...Ch. 24 - 18. Use the wave front representation to explain...Ch. 24 - Compare the interference pattern produced by two...Ch. 24 - Draw 10 coherent point-like sources of light...Ch. 24 - If you see green light of 520-nm wavelength when...Ch. 24 - 22. Imagine that you have a very thin uniform oil...Ch. 24 - (a) Draw a picture of what you will see on a...Ch. 24 - Describe three situations that you can analyze...Ch. 24 - Why can you hear a person who is around a corner...Ch. 24 - 26 Astronomers often called the resolution limit...Ch. 24 - 24.1 and 24.2 Youngs double-slit experiment and...Ch. 24 - 24.1 and 24.2 Youngs double-slit experiment and...Ch. 24 - 24.1 and 24.2 Young’s double-slit experiment and...Ch. 24 - 24.1 and 24.2 Youngs double-slit experiment and...Ch. 24 - 24.1 and 24.2 Young’s double-slit experiment and...Ch. 24 - 24.1 and 24.2 Youngs double-slit experiment and...Ch. 24 - 24.1 and 24.2 Youngs double-slit experiment and...Ch. 24 - Gratings: an application of interference Light of...Ch. 24 - 24.3 Gratings: an application of interference...Ch. 24 - 24.3 Gratings: an application of interference
12....Ch. 24 - Gratings: an application of interference Only half...Ch. 24 - 24.3 Gratings: an application of interference...Ch. 24 - 24.3 Gratings: an application of interference...Ch. 24 - 24.3 Gratings: an application of interference
18....Ch. 24 - 24.4 Thin-film interference
20. * Representing...Ch. 24 - 24.4 Thin-film interference
21. * Oil film on...Ch. 24 -
24.4 Thin-film interference
22. * Soap bubble 1 ...Ch. 24 - 24.4 Thin-film interference * Soap bubble 2 soap...Ch. 24 - 24.4 Thin-film interference
24. * Thin-film coated...Ch. 24 - Thin-film interference * Thin-film coated glass...Ch. 24 - 24.4 Thin-film interference
26. Two flat glass...Ch. 24 - 24.5 Diffraction of light * Explain diffraction...Ch. 24 - 24.5 Diffraction of light * How did we derive it?...Ch. 24 - 24.5 Diffraction of light
31. * Explain a white...Ch. 24 - 24.5 Diffraction of light Light of wavelength 630...Ch. 24 - 24.5 Diffraction of light * Light of wavelength of...Ch. 24 - 24.5 Diffraction of light * Sound diffraction...Ch. 24 - 24.5 Diffraction of light * Light of wavelength...Ch. 24 - Prob. 36PCh. 24 - 24.6 Resolving power
37. Resolution of telescope ...Ch. 24 - Resolving power * Laser light of wavelength 630 nm...Ch. 24 - Resolving power * Size of small bead Infrared...Ch. 24 - Resolving power * Resolution of telescope How will...Ch. 24 - Resolving power * Detecting visual binary stars...Ch. 24 - Prob. 42PCh. 24 - 24.6 Resolving power
43 * Draw a graphical...Ch. 24 - 24.7 Skills for applying the wave model of...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - Prob. 48PCh. 24 - Prob. 50PCh. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of...Ch. 24 - 24.7 Skills for applying the wave model of...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - 24.7 Skills for applying the wave model of light *...Ch. 24 - * Monochromatic light passes through two slits and...Ch. 24 - 64. Sound from speakers Two stereo speakers...Ch. 24 - Prob. 65GPCh. 24 - 66. Diffraction of water waves entering a harbor ...Ch. 24 - ** Variable thickness wedge A wedge of glass of...Ch. 24 - Prob. 69GPCh. 24 - Looking at Moon rocks You have a home telescope...Ch. 24 - * BIO EST Diffraction-limited resolving power of...Ch. 24 - 72. * Resolving sunspots You are looking at...Ch. 24 - s Mare Imbrium The outermost ring of mountains...Ch. 24 - * Can you see atoms with a light-based microscope?...Ch. 24 - * Detecting insects by diffraction of sound A...Ch. 24 - BIO What is 20/20 vision? Vision is often measured...Ch. 24 -
BIO What is 20/20 vision? Vision is often...Ch. 24 - BIO What is 20/20 vision? Vision is often measured...Ch. 24 - BIO What is 20/20 vision? Vision is often measured...Ch. 24 - BIO What is 20/20 vision? Vision is often measured...Ch. 24 - Thin-film window coatings for energy conservation...Ch. 24 - Thin-film window coatings for energy conservation...Ch. 24 - Thin-film window coatings for energy conservation...Ch. 24 - Thin-film window coatings for energy conservation...Ch. 24 - Thin-film window coatings for energy conservation...
Knowledge Booster
Similar questions
- Please Asaparrow_forward*it's not an exam or test. It was a task for measurement error. I just want to see the method of resolutionarrow_forward6) Hi, Can you solve the question 6 and make explanation please? and if you are gonna use handwrite please make sure that it is readable thank you. I know that you cant solve multiple options so can you solve the option A and B pleasearrow_forward
- Activity: 7: What I Have Learned A. Direction: Solve the following problems. Show your complete solutions legibly and concisely in a separate sheet of paper. 2. A light source emits visible light of two wavelengths: A = 400 nm and ' = 500 nm. The source is used in a double-slit interference experiment in which L = 1.2 m and d = 0.030 mm. Find the separation between the third- order bright fringes.arrow_forwardQUESTION 2. Identify whether the following statements are TRUE or FALSE. No explanation is needed. 1. Larger numerical aperture (NA) improves depth of focus (DOF). True OR False 2. Double Processing (DP) improves resolution for projection lithography. True OR False 3. Gate oxide isolates different MOS transistors on the same substrate. True OR False 4. Drain and Source of a MOS transistor is made from polysilicon. True OR False 5. In proximity printing/lithography resolution is not good because the gap True OR False between the mask and the resist causes strong light diffraction. 6. Higher contrast leads to higher resolution in a photoresist. True OR False 7. Phase shifting masks (PSM) enhances resolution in lithography. True OR False 8. Resists which require lower dose for full exposure have higher sensitivity. True OR False 9. Damascus blades contained carbon nanotubes. True OR False 10. Standing wave formation in photoresist leads to better photoresist profiles. True OR Falsearrow_forwardWavelength nm Color me 400 ***************** 100004 B Editor Suggestions: Showing 10 450 Q Search 525 1. Describe the relationship between color and wavelength. 580 Yellow BOL 600 Am 3. Use this to explain which color slows down the most in a glass block hp B 2. Looking at the spectrum produced by the prism, which colour is bent more? M E 650 I 700arrow_forward
- Mode Structure of Helium-Neon Laser The mode structure of a HeNe-laser of wavelength 633 nm is studied with a scanning Fabry-Perrot interferometer. The two laser concave mirrors have the same radius of curvature. On an oscilloscope the following image is obtained. 1- Calculate the frequency difference between TEM 004 and TEM 00q+1arrow_forwardThis question is related to to the experiment in which we find angle of prism and angle if minimum deviation using a spectrometer. Explain the attached statement .arrow_forwardWhat is the effect of detector material and mAs on Image Noise and Contrast of the acquired CT images? Explain in 150 wordsarrow_forward
- registration no=130arrow_forward2 and 3 answer plsarrow_forwardActivity: 7: What I Have Learned A. Direction: Solve the following problems. Show your complete solutions legibly and concisely in a separate sheet of paper. 1. A viewing screen is separated from a double-slit source by 1.3 meter. The distance between the two slits is 0.020 mm. The second-order bright fringe (m = 2) is 2.5 cm from the center line. (a) Determine the wavelength of the light and (b) Calculate the distance between adjacent bright fringes 2. A light source emits visible light of two wavelengths: A = 400 nm and A' = 500 nm. The source is used in a double-slit interference experiment in which L = 1,2 m and d = 0.030 mm. Find the separation between the third- order bright fringes.arrow_forward
arrow_back_ios
SEE MORE QUESTIONS
arrow_forward_ios
Recommended textbooks for you
Physics for Scientists and Engineers: Foundations...PhysicsISBN:9781133939146Author:Katz, Debora M.Publisher:Cengage Learning
Physics for Scientists and Engineers: Foundations...
Physics
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Cengage Learning