X rays of wavelength 0.12 nm are found to undergo second-order reflection at a Bragg angle of
Question:
X rays of wavelength 0.12 nm are found to undergo second-order reflection at a Bragg angle of 28o from a lithium fluoride crystal, what is the inter planar spacing of the reflecting planes in the crystal?
Fantastic news! We've Found the answer you've been seeking!
Step by Step Answer:
Answer rating: 61% (13 reviews)
Braggs law gives the condition for a diffraction maximu...View the full answer
Answered By
Muhammad Umair
I have done job as Embedded System Engineer for just four months but after it i have decided to open my own lab and to work on projects that i can launch my own product in market. I work on different softwares like Proteus, Mikroc to program Embedded Systems. My basic work is on Embedded Systems. I have skills in Autocad, Proteus, C++, C programming and i love to share these skills to other to enhance my knowledge too.
3.50+
1+ Reviews
10+ Question Solved
Related Book For
Fundamentals of Physics
ISBN: 978-0471758013
8th Extended edition
Authors: Jearl Walker, Halliday Resnick
Question Posted:
Related Video
The law of reflection states that the angle of reflection equals the angle of incidence ???????? = ???????? A bouncing ball obeys the “law of reflection,” which says that the ball leaves the surface at the same angle it approached the surface. The ball’s next bounce is 3.0 m to the right of its first bounce.
Students also viewed these Light and Optics questions
-
X rays of wavelength 0.0850 nm are scattered from the atoms of a crystal. The second-order maximum in the Bragg reflection occurs when the angle 0 in Fig. 36.23 is 21.5. What is the spacing between...
-
X rays of wavelength 0.0100 nm are directed in the positive direction of an x axis onto a target containing loosely bound electrons. For Compton scattering from one of those electrons, at an angle of...
-
X rays of wavelength 2.63 were used to analyze a crystal. The angle of first-order diffraction (n = 1 in the Bragg equation) was 15.558. What is the spacing between crystal planes, and what would be...
-
Prepare the schedule of year-end deferred tax assets and liabilities for each year. The schedule should separately list the sources of the firms ending deferred tax assets and deferred tax...
-
Assume that you are purchasing an investment and have decided to invest in a company in the smartphone business. You have narrowed the choice to Best Digital Electronics or Zone Network Electronics...
-
Mae Telford, the controller of the Baylor Company, provided the following information: The Cash account in the General Ledger appeared as follows on November 30 (Baylor Company uses only a General...
-
A company manufactures geometrically similar airplane propellers up to \(4.0 \mathrm{~m}\) in diameter. Wind tunnel tests are run on geometrically similar propellers up to \(0.33 \mathrm{~m}\) in...
-
1. The U.S. International Trade Commissions committee in charge of the global safeguard investigation involving imports of steel has announced its recommendations to be forwarded to the president. Of...
-
WATER SUPPLY PLANNING AND DEVELOPMENT QUESTION: EXPLAIN AND EXPOUND THE TOPICS MENTIONED BELOW. PROVIDE EXAMPLES. TOPICS: >Importance of safe drinking water on public health. >Development of water...
-
This is a velocitytime graph for a vertically bouncing ball. The ball is released at A and strikes the ground at B. The ball leaves the ground at D and reaches its maximum height at E. The effects of...
-
If first-order reflection occurs in a crystal at Bragg angle 3.4o, at what Bragg angle does second-order reflection occur from the same family of reflecting planes?
-
What is the smallest Bragg angle for x rays of wavelength 30 pm to reflect from reflecting planes spaced 0.30 nm apart in a calcite crystal?
-
The subspace of R3 spanned by the vectors and u2 = (0, 1, 0) is a plane passing through the origin. Express w = (1, 2, 3) in the form w = w1 + w2, where w1 lies in the plane and w2 is perpendicular...
-
The legal statutes and insurance policy coverage identify a number of loss categories from a cyberattack. In the list of losses is one for general injuries. Identify one general injury that might be...
-
Henry wants to send his son to computer school which will start one year from today. Payments of $2,000 are due at the end of each of the next two years. What lump-sum will Henry have to invest now...
-
What quantity of heat (in kJ) will be absorbed by a 31.5 g piece of aluminum (specific heat = 0.930 J/g C) as it changes temperature from 23.0 C to 67.0 C?
-
1. Explain on the financial statement analysis. 2. Explain on EIGHT (8) financial ratio. 3. Describe FIVE (5) types of financial objectives.
-
Like other direct-to-consumer startup companies such as Dollar Shave Club and Warby Parker, Glossier also offers its customers extremely low prices thanks to its direct-to-consumer business model....
-
During which section of the motion is the magnitude of the acceleration experienced by a rider the greatest? A. The first. B. The second. C. The third. D. It is the same in all sections. A rider on a...
-
What are the six activities involved in the physical supply/distribution system?
-
How does the focus on production for money profits introduce instability into the economy? Explain.
-
An organ is in tune at 20oC. By what percent will the frequency be off at 5.0oC?
-
How far from the mouthpiece of the flute in Example 12-10 should the hole be that must be uncovered to play D above middle C at 294 Hz?
-
(a) At T = 20oC, how long must an open organ pipe be to have a fundamental frequency of 294 Hz? (b) If this pipe if filled with helium, what is its fundamental frequency?
-
In the context of solid-liquid extraction, how do particle size distribution, porosity, and surface area of the solid matrix impact extraction kinetics and overall efficiency? Provide examples of...
-
Discuss the challenges and opportunities associated with the extraction of bioactive compounds from natural sources using environmentally benign solvents and green extraction techniques, such as...
-
The driver of a car traveling at 31.9 m/s applies the brakes and undergoes a constant deceleration of 1.12 m/s 2 . How many revolutions does each tire make before the car comes to a stop, assuming...
Study smarter with the SolutionInn App