For some hypothetical metal, the equilibrium number of vacancies at 900(C is 2.3 ( 1025 m(3. If
Question:
For some hypothetical metal, the equilibrium number of vacancies at 900(C is 2.3 ( 1025 m(3. If the density and atomic weight of this metal are 7.40 g/cm3 and 85.5 g/mol, respectively, calculate the fraction of vacancies for this metal at 900(C?
Fantastic news! We've Found the answer you've been seeking!
Step by Step Answer:
Answer rating: 100% (7 reviews)
This problem is solved using two steps 1 calculate the total number of lattice ...View the full answer
Answered By
Sufiyan Ahmed Tariq
I am a Chartered Accountant and an Associate Public & Finance Accountant. I also hold a bachelors of Commerce degree. I have over 8 years of experience in accounting, finance and auditing. Through out my career, I have worked with many leading multinational organisation.
I have helped a number of students in studies by teaching them key concepts of subjects like accounting, finance, corporate law and auditing. I help students understanding the complex situation by providing them daily life examples.
I can help you in the following subject / areas:
a) Accounting;
b) Finance;
c) Commerce;
d) Auditing; and
e) Corporate Law.
4.90+
7+ Reviews
17+ Question Solved
Related Book For
Materials Science and Engineering An Introduction
ISBN: 978-1118324578
9th edition
Authors: William D. Callister Jr., David G. Rethwisch
Question Posted:
Students also viewed these Modern Physics questions
-
Calculate the activation energy for vacancy formation in aluminum, given that the equilibrium number of vacancies at 500C (773 K) is 7.57 10 23 m -3 . The atomic weight and density (at 500C) for...
-
Calculate the activation energy for vacancy formation in aluminum, given that the equilibrium number of vacancies at 500C (773 K) is 7.57 1023 m-3. The atomic weight and density (at 500C) for...
-
Calculate the energy for vacancy formation in nickel (Ni), given that the equilibrium number of vacancies at 850C (1123 K) is 4.7 1022 m-3. The atomic weight and density (at 850C) for Ni are,...
-
In Problems, use a calculator to give a decimal approximation of the numbers to three decimal places. e 4
-
Brooks Enterprises has never paid a dividend. Free cash flow is projected to be $80,000 and $100,000 for the next 2 years, respectively, and after the second year it is expected to grow at a constant...
-
Complete the balance sheet and sales information in the table that follows for Hoffmeister Industries using the following financial data: Debt ratio: 50% Quick ratio: 0.80 Total assets turnover: 1.5...
-
Multiple regression is best implemented on a computer. The following MINITAB commands fits the \(y\) values in \(\mathrm{C} 1\) to predictor values in \(\mathrm{C} 2\) and \(\mathrm{C} 3\). It...
-
Taxpayer A purchased $ 100,000 of corporate bonds yielding 12.5% per annum; the interest income from these bonds is taxed at a rate of 28%. Taxpayer B purchased $ 100,000 of municipal bonds yielding...
-
Create thesis statement for interesting topic in abnormal psychology. The overall topic must be within the scope of abnormal psychology, and not sociology, developmental psychology, etc.
-
Gear A has a mass of 0.5 kg and a radius of gyration of k A = 40 mm, and gear B has a mass of 0.8 kg and a radius of gyration of k B = 55 mm. The link is pinned at C and has a mass of 0.35 kg. If the...
-
What is the composition, in atom percent, of an alloy that contains 44.5 lbm of Ag, 83.7 lbm of Au, and 5.3 lbm of Cu?
-
Calculate the number of atoms per cubic meter in Pb?
-
If you look through a piece of very fine fabric at a tiny white light source, you will see a rainbow pattern. Explain the source of the pattern.
-
The characteristic equation of a system is \[ s^{3}+10 s^{2}+(50+\mathrm{A}) s+\mathrm{K}=0 \] Determine the regions on A-K plane (A on \(\mathrm{X}\) axis and \(\mathrm{K}\) on \(\mathrm{Y}\) axis)...
-
A conical pendulum is a device analogous to a simple pendulum, except that the mass can rotate along a horizontal circumference in the \(x, y\) plane while the acceleration of gravity is along the...
-
Consider as in Fig. 4.14 a block of mass \(M=1.35 \mathrm{~kg}\) placed on a rough horizontal plane with dynamic coefficient of friction \(\mu_{d}=0.250\) to which a constant force \(\mathbf{F}\) is...
-
A device descends near the Earth's surface with downward acceleration of magnitude \(a=2.5\) \(\mathrm{m} / \mathrm{s}^{2}\). A particle is launched upward from the plane of the device with initial...
-
A wedge of very large mass and angle \(\theta=30^{\circ}\) is resting on a horizontal surface as shown in Fig.4.15. Two bodies, of mass \(m_{1}=500 \mathrm{~g}\) and \(m_{2}\) are arranged as in the...
-
Determine whether the graph could represent a variable with a normal distribution. Explain your reasoning. If the graph appears to represent a normal distribution, estimate the mean and standard...
-
The tractor is used to lift the 150-kg load B with the 24-mlong rope, boom, and pulley system. If the tractor travels to the right at a constant speed of 4 m/s, determine the tension in the rope when...
-
Using mechanics of materials principles (i.e., equations of mechanical equilibrium applied to a free-body diagram), derive Equations 6.4a and 6.4b.
-
Consider a cylindrical specimen of a steel alloy (Figure 6.21) 10.0 mm (0.39 in.) in diameter and 75 mm (3.0 in.) long that is pulled in tension. Determine its elongation when a load of 20,000 N...
-
A gray cast iron, the tensile engineering stress-strain curve in the elastic region. Determine the tangent modulus at 10.3 MPa (1500 psi), and (b) the secant modulus taken to 6.9 MPa (1000 psi).
-
Scenario: Yarning Circle and Talking Stick Sarah has recently been employed by Blue Bay Early Learning Centre. Sarah is very proud of having just achieved the Diploma of Children's Services and she...
-
The principal at your school decides to retire, and several well-qualified teachers on the staff apply for the position. Mr. England has been teaching for four years and has his administrator's...
-
Sandi's parents have been divorced since she was five years old. She is now seven. She lives with her mother and visits her father every other weekend. He brings her to school on Monday mornings...
Study smarter with the SolutionInn App