A common lens coating material is magnesium fluoride (MgF2) with n = 1.38. What thickness should a nonreflective coating have for 550-nm light if it is applied to glass with n = 1.52?
Q: what are the x, y, and z components of p given the force is 535N
A: Step 1:Step 2:
Q: Model the effective potential seen by the least bound proton in the nucleus as a square well with…
A: To model the effective potential seen by the least bound proton in the nucleus, we'll consider the…
Q: A hoop of radius Rμ and mass mч and a solid cylinder of radius Rc and mass mc are released…
A:
Q: Three forces are acting on a 20kg mass as shown below: (assume North is up) 30N 30N 20 kg + 60N >…
A: Solution:-Step 1:
Q: I need help on this question?
A: Step 1:Step 2:
Q: An atom has a mass of 1.17 × 10-26 kg. If we consider this atom vibrating with simple harmonic…
A: Step 1:Step 2:
Q: The fishing pole in the figure below makes an angle of 20.0° with the horizontal. What is the…
A: Recall that torque is expressed as:τ=r×FWhere r is the vector corresponding to the location of the…
Q: help with all parts
A:
Q: An X-ray photon of 240 keV Compton scatters to an angle of 47\deg . Find the final energies of the…
A:
Q: Shown in the figure below is an "RL" circuit drive by an AC power source. The AC power source has an…
A: Step 1:Step 2:Step 3: Step 4:
Q: H 60° Figure 6 G M 8. A uniform rod HG of length 2L m and mass m = 2 kg is hinged at end H, as shown…
A:
Q: An outdoor WiFi unit for a picnic area has a 100-mW output and a range of about 30.9 m. What output…
A:
Q: You throw a piece of rock vertically upwards and it returns back to you after 4.3 seconds. With what…
A: In this problem, we are given the total time the rock is in the air, which is 4.3 seconds. We are…
Q: What was the original height of a building if a ball is tossed upward with an initial velocity of…
A: Step 1:Initial velocity is 12m/sFinal velocity is 40m/sOriginal height is HHeight of the building is…
Q: Part B: In the figure below, d₁ H. At what distances between the mirror and the observer will the…
A: The visibility of an apple only depends on the length of the mirror not the distance of mirror from…
Q: An object is placed at the focal point of a converging lens. In a separate system, an object is…
A:
Q: A plane sinusoidal wave traveling in vacuum has an electric field given by the photo: a. what is the…
A: Approach to solving the question: The electromagnetic waves. Detailed explanation:
Q: wo spaceships are observed from earth to be approaching each other along a straight line.Ship A…
A: The problem is asking for the relative speed of ship B as observed from ship A. This is a classic…
Q: A 12.5 kg box, which is on the top of a horizontal, frictionless table, is connected to a second…
A:
Q: Student A & B are studying the Zeeman effect. They observe that the energy of an electron in the…
A: Step 1: Energy difference , ΔE=2μBB Given that magnetic field , B=0.6T Step 2:…
Q: M I f. m M The object as shown slides up the ramp, which is free to roll on a frictionless surface.…
A: Step 1: We will solve this problem using law of conservation of momentum, as this is the case of…
Q: Vector A has an x-component of 8.08 and a y-component of 2.87. Vector B has an x-component of 3.02…
A: Solution:-Step 1:
Q: https://www.compadre.org/PQP/quantum-need/prob4_5.cfm *Link to HW problem
A: Approach to solving the question: Detailed explanation:Examples: Key references:
Q: QUESTION 5 A block of mass 5.8kg is pulled up an inclined at CONSTANT VELOCITY by a force F that…
A: Kinetic frictional force - It is a force acting in the opposite direction of movement of an object.…
Q: Ax 3 A strip of invisible tape 0.14 m long by 0.014 m wide is charged uniformly with a total net…
A: Step 1:length of each strip = 0.14/3 m = 0.046msuppose all three strip as point charge.then distance…
Q: A 12.0 V battery is connected into a series circuit containing a 12.0 2 resistor and a 2.50 H…
A: Step 1:Determine the given variables:The supplied voltage is V=12VThe resistance is R=12ΩThe…
Q: Please please please answer as fast as possible please
A: Step 1:Wavelength is 445nmSlit of width is 0.319mmDiffraction pattern on the screen is 4mStep…
Q: A group of physic students determine that the wave function for an electron in a 2-p state in…
A:
Q: An insulating sphere with an 3 cm radius has a uniform charge of 12 µC. What is the magnitude ofthe…
A: Step 1:Radius is 3cm is 0.03mCharge is 12μCDistance is 2cm is 0.02mStep 2:The formula for magnitude…
Q: A block is thrown toward the top of an inclined plane that makes an angle of 35° with the horizontal…
A: The initial velocity is u = 17 m/s.The angle of inclination of the plane is θ = 35°The coefficient…
Q: An object of mass 100 grams hangs from a long spring. When pulled down 10 cm from itsequilibrium…
A: First, let's identify the given values from the question:Mass of the object (m) = 100 grams = 0.1 kg…
Q: 10. A snowboarder starts at the top of a 160. m tall hill with a velocity of 3.00 m/s. The portion…
A: Step 1:Initial kinetic energy of snowboarder is,Ki=21mvi2where,m is the mass of snowboardervi is…
Q: Three identical balls are launched with the same initial speed from the top of a cliff overlooking…
A: The correct answer is: d. Equal for all three All three balls have the same initial height and…
Q: I am working on this review question and i couldn't come up with the correct solution. I need a…
A: Step 1:Step 2:Step 3:Step 4:
Q: solve for answers and explain each
A: Here is a detailed approach to solving the question:**Approach to solving the question:**1. Identify…
Q: a) Five 8.0- uF capacitors are connected in parallel. What is the equivalent capacitance? b) What is…
A: Given data :Capacitance of each capacitor, C = 8.0 μFNumber of capacitor = 5 Solution :Part (a) :…
Q: The total mechanical energy of an object is the sum of its potential energy (U) and it’s kinetic…
A: Step 1: Data provided in the problem Mass: 0.0150kg Initial Height: 1m Measured Distance: 0.020 m;…
Q: A gold engagement ring has an inner diameter of 1.5 × 10−2 m and a temperature of 27 °C. The ring…
A:
Q: Q1/ four specimen of the same 0.6% C, are heat treated differently as follows: 1- heated to 750°C…
A: Step 1: Step 2: Step 3: solution is given above Step 4:
Q: solve and explain each step
A:
Q: When light passes from air into glass (as shown in the figure) what happens to the light?
A:
Q: An electron with 2.2 eVeV of kinetic energy collides with an atom whose energy-level diagram is…
A:
Q: Light of wavelength 556 nm is incident on a diffraction grating that is 4.20 cm wide and has 1227…
A: Step 1: Step 2: Step 3: Step 4:
Q: What is the phase constant (from 0 to 2л rad) for the harmonic oscillator with the position function…
A:
Q: A 1kg object with initial speed v collides with a 2kg object (which is initially standing still).…
A: Out of the given options, the following statements are true:More than 50% of the initial kinetic…
Q: Provide the answers in 2 hours, and count as 2 questions if necessary.
A: Step 1: a) The mechanism responsible for the energy loss in this electron-positron collider is…
Q: You will answer this question by dragging and dropping elements from the list below into boxes. The…
A: Step 1: (a) Completing the Schrödinger EquationThe Schrödinger equation is:−2mℏ2dx2d2ψ+V(x)ψ=EψFor…
Q: If the area of surfaces is decreased by 40 % and thrust is increased by 60% then find the ratio of…
A: To find the ratio of the new pressure to the old pressure when the area of the surfaces is decreased…
Q: If a car's horn emits a sound at a frequency of 500 Hz and the car isapproaching a stationary…
A:
Q: solve and explain each one
A: Step 1:Step 2:Step 3:Step 4:
solve and explain
Step by step
Solved in 2 steps with 1 images
- An amateur astronomer wants to build a telescope with a diffraction limit that will allow him to see if there are people on the moons of Jupiter. (a) What diameter mirror is needed to be able to see 1.00-m detail on a Jovian moon at a distance of 7.50108 km from Earth? The wavelength of light averages 600 nm. (b) What is unreasonable about this result? (c) Which assumptions are unreasonable or inconsistent?common lens coating material is magnesium fluoride (MgF2) withn = 1.38. What thickness should a nonreflective coating have for550 nm light if it is applied to glass with n = 1.52?A common lens coating material is magnesium fluoride 1MgF22, with n = 1.38. What thickness should a nonreflective coating have for 550 nm light if it is applied to glass with n = 1.52?
- A lens with an index of refraction of 1.60 is to be coated with a material (n = 1.40) that will make the lens nonreflecting for yellow-orange light (λλ = 515 nm) normally incident on the lens. What is the minimum required thickness of the coating?ress SA A thin film of magnesium fluoride (n = 1.38) is applied to glass (n = 1.50) with a thickness of 100 nm. For what visible wavelength of light will this coating act as nonreflecting? Assume normal incidence. O 491 nm O 600 nm O 504 nm 552 pm Q Search 15 40 %5 6 Il app.honorlock.com is sharing your screen. Stop, sharing Hide 99+ 3+ hp 103 a malip 8A spy satellite uses a telescope with a 2.0-m-diameter mirror. It orbits the earth at a height of 220 km. What minimum spacing must there be between two objects on the earth’s surface if they are to be resolved as distinct objects by this telescope? Assume the telescope’s resolution is limited only by diffraction and that it records 500 nm light.
- A coating, 177.4 nm thick, is applied to a lens to minimize reflections. Therespective indexes of refraction of the coating and of the lens material are 1.55and 1.48. What wavelength in air is minimally reflected for normal incidence inthe smallest thickness? Draw a diagram as part of your solution.A plastic lens is coated on the outside with a thin film of graphene to prevent the transmission of UV light with wavelength, λ = 250 nm from the lens surface. The index of refraction of graphene is 1.30; that of the plastic is 1.58. What is the minimum graphene coating thickness that blocks the transmission of the UV-light with wavelength, λ = 250 nm)?A multi-mode fiber optic has a core index of n = 1.492 and a cladding index of 1.489. The diameter of the core is 30.0 microns. Monochromatic light is focused into one end of a perfectly straight fiber which is 25.0 km long. What will be the difference in arrival time at the far end of the fiber for the axial and marginal rays?
- If the refractive indices of core and cladding are 1.543 and 1.432, estimate the numerical aperture of the optical fiber cable: O a. 0.5746 O b. 0.9281 O c. 2.2096 O d. 0.1114. a. Determine the size of the Airy disk (in m) found at the center of a 4.00-cm diameter lens, with a focal length of 15.0 cm. Assume the incident light wavelength is the middle of the visible spectrum = 550. nm. b. In observational astronomy, we assume that stars, being so far away, are point sources of light, and that the image of a star in a telescope eyepiece is therefore also a point. Given that the average human near-field resolution is 0.10 mm, does your result in part a justify this assumption? Explain your answer, using the value from part a. c. Assume that the objective lens diffraction limit is the only one that matters on a telescope (actually a good assumption, not justified here). What is the angular size (in radians) of the smallest object that can be truly observed as a disk on the 4.00-cm telescope in part a? Can Jupiter (maximum angular size = 51 arc-seconds) be seen as a disk through this telescope? Note that real telescopes have glass or mirror imperfections which…a) What is the minimum thickness of a film of glass (n=1.6) with air on both sides, that will reflect light at X = 600nm ? b) What is the minimum thickness of a film of glass (n=1.6), with air on both sides, that will NOT reflect light at λ = 660nm ?