(a) Describe the concept of minimum deviation in a triangular prism. (b) How is this concept used in Spectroscopy? (c) For a better spectrometer, what angle alpha and index of refraction n should be used considering physical limitations?
Q: Integrated Concepts(a) During laser vision correction, a brief burst of 193 nm ultraviolet light is…
A: (a) The heat transfer Q is 0.5 mJ. Convert the value of Q from mJ to J. The change in temperature…
Q: (What parts does an X-ray diffraction device consist of and explain what these parts are used for.)
A: To diffract X ray , the instrument used is known as diffractometer . .
Q: X-rays with wavelengths of 128 pm was used to study a crystal which produced a reflection of 15.8…
A: Given data: Wavelength λ=128 pm Angle θ=15.8o Order n = 1
Q: A new optical imaging satellite is being designed for the Maritime Domain Awareness mission. The…
A: Given that- h=5000km maximum range=7000km The desired resoluction=3m To determine that What is the…
Q: Calculate the time delay between an axial ray a ray that enters a 1-km long fiber at an angle of…
A: Given that: Length of the fiber:L=1 km=1000m Refractive index of the core: ncore=1.48 Angle of…
Q: (1) (a) What is the wavelength of a 25.75 X 10' Hz radar signal? (b) What is the frequency of an…
A:
Q: Assuming the precision, PP, with which this electromagnetic radiation can shape the cornea is…
A: Electromagnetic waves, which comprise a time-varying electric field and a time-varying magnetic…
Q: The circumference laser system is 0.3 mm and the distance between the two mirrors is 1.2 m.…
A: LASER stands for light amplification by stimulated emission of radiation. The optical pump is used…
Q: Assume the radii used for the experiment are 10.00 cm and 17.00 cm. Calculate the value of Ax for…
A:
Q: Nuclear-pumped x-ray lasers are seen as a possible weapon to destroy ICBM booster rockets at ranges…
A:
Q: A telescope can be used to enlarge the diameter of alaser beam and limit diffraction spreading. The…
A:
Q: Consider a multimode fiber and a light source. In the linear regions, its pulse spread per unit…
A: Given thatLength L =30ns/km =∆(ζL)Le =0.5 kmf3d13optm =1(2∆e)for L<0.5 km, ∆e =L∆ (ζ1)so f3 -d13…
Q: (a) Draw the crystal planes having the following Miller indices: (100), (110), (111) (b) In the…
A: Part(a) Draw the crystal planes having Miller indices: (100), (110), (111). part(b) In the context…
Q: Assume that you want to bounce a laser beam off the Moon. Assume the laser beam is TEM9,0 and that…
A: Since, you have uploaded a question with multiple subparts, we will solve first three subparts (a,…
Q: A material has an absorption coefficient of a-0.39 mm1 at a particu lar wavelength, for which an…
A: Given:
Q: . Consider a geostationary-orbit satellite at an altitude of 35,784 km above the earth's equa- tor…
A: In this question we have to consider a geostationary-orbit satellite at an altitude of 35,784 km…
Q: Calculate the interplanar spacing (in picometers) that corresponds to defracted beams of X-rays at θ…
A:
Q: Determine whether each of the following statements is true(T) or false (F). (a) The angle θ in…
A: Statement A : True
Q: Consider a TEM00 laser (λ = 632.8 nm) with a maximum output power of 2.7 kW andinitial beam diameter…
A: Here's the detailed explanation: The mode number ( m ) is an integer and represents the number of…
Q: A sodium laser emits a light beam of wavelength 589 nm in air, with a beam diameter of 3 mm and…
A: To evaluate the given quantities, we can use the following formulas: i) Wavenumber (k₀) is given by…
Q: Discuss, with the help of equation(s), the effect of parabolic antenna size on the radar angular…
A: A parabolic antenna directs radio waves using a parabolic reflector, which is a curved surface…
Q: abry-P a nano otteti nanon
A: Given: A light source course has two wavelengths m2=m1+l The length of the scanning Fabry-Perot…
Q: Please explain the following phenomena in X-Ray Diffraction. Why does the background intensity of…
A: Question 1. X-ray scattering is also influenced by the angle of incidence and scattering, with…
Q: A portable chest radiograph is obtained on a recumbent patient using 86kVp and 1.6 mAs, @ 44” SID.…
A: Given: Source to image distance D1 = 44 inch. Source to image distance D2 = 68 inch. Value of mAs1…
Q: A fiber is characterized by an intermodal dispersion of 40 ns/km. If the core refrac- tive index is…
A: Given that:Intermodal dispersion is 40 ns/kmCore refractive index, n1=1.49
Q: The nth bright band of red light of wavelength 675DA° in coincide with [Infilth of beight band of…
A: We need to compute the value of (n)=?Given that-Wavelength of red light (λr)=6750 A0Wavelength of…
Q: One important goal of astronomers is to have a telescope inspace that can resolve planets like the…
A: Given The length travelled by the star is L=1.5×1011 m=1.5×1011 m×1 ly9.46×1015 m=1.5856×10-5 ly.…
Q: 4. (a) A fiber has modal dispersion of 10ns/km. If an instantaneous light pulse travelled 20 km in…
A: Given:Modal dispersion = 10 ns/kmSolution:a. For 20 km dispersion will be zero Here the light…
Q: d=20° S-120m 6, CC 40 Bex mirer live Cotated) mirror line Curotated) Prove: B = 22
A: To prove : β = 2* α Using the relationship already mentioned in the question, θi +θr+ x = β - x…
Q: Millimeter-wave radar generates a narrower beam than conventional microwave radar, making it less…
A:
Q: In the configuration shown in the figure, how much flux in watts falls on a 1-mm x 1-mm detector…
A: The following information is given in the question: Configuration: A source of 2 cm x 2 cm is…
Q: Millimeter-wave radar generates a narrower beam than conventional microwave radar, making it less…
A: Given:(a) For the millimeter-wave radar antenna, Diameter of the circular antenna, d = 54.0 cm =…
Q: Q. 6 Light consisting of wavelength 400 nm to 800 nm falls on a metal plate A having work function…
A: the wavelength range of light is 400-600nm. hence, the corresponding energy range of the photons…
Q: Millimeter-wave radar generates a narrower beam than conventional microwave radar, making it less…
A:
Q: Atomic sodium produces two prominent spectral lines at 588.995 nm and 589.592 nm. Find the angular…
A:
Q: What signal is plotted above? (a) u(t) – u(-t) (b) u(-t) – u(t) (c) 2u(t) – u(-t) (d) u(-t) – 2u(t)
A: u(t) = 1 when t>= 0 and 0 when t<0 u(-t) = 1 when t <= 0 and 0 when t>0 So, u(-t)-u(t)…
Q: A laser delivers an irradiance of 105 W/cm2 in a certain target area. If you are working in this…
A: Given: The power density of the laser is P=105 Wcm2=1.05×106 Wm2. The average power density is 0.005…
Q: In order to achieve higher levels of X-ray attenuation than observed for biological tissue,elements…
A:
Q: Question 4 Adlelt epemiet has a alit eparatim divtance ofre de mm. The first height fringe ppcan S…
A: Intereference is the phenomenon when two waves intersect with each other-constructively or…
Q: 13.2-2 Photon Flux. Demonstrate that the power of a monochromatic optical beam that carries an…
A: Solution:
Q: In acquiring a sequential CT image, the combination of X-ray tube and detector rotates as one unit…
A: a.) The number of projections needed for the data = 1800 Total angle covered = 360o Angle covered by…
(a) Describe the concept of minimum deviation in a triangular prism.
(b) How is this concept used in Spectroscopy?
(c) For a better spectrometer, what angle alpha and index of refraction n should be used considering physical limitations?
Step by step
Solved in 2 steps with 1 images
