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In FIG 2-15, Calculate the MILLER index for each of the planes
AGDE, CDEF, CDGH, EFGH...
question about XRD and miller index how to solve question number 7?? 4. (1) Describe the...
question about XRD and miller index
how to solve question number 7??
4. (1) Describe the purpose of using a tire code. Explain type and structure of the tire code. Also explain how to improve the adhesion between rubber and tire code and why it is important. [20] (2) Conventional tires are usually composited with carbon black (CB) particles. Explain why the size of CB particles and network structure of CB particles are important to improve the mechanical properties of...
Example 1: Using the data from Communities 1 and 2 above and calculate Simpson's Index For...
Example 1: Using the data from Communities 1 and 2 above and calculate Simpson's Index For Community 1: 18 of 20 individuals are Species A So for Species A. (pi)2 (18/20)2-0.81 I of 20 individuals are Species B For Species B, (pi)2 (1/20)2-0.025 l of 20 individuals are species C For Species C. (pi)2-(1/2°)2 0.025 Y (pi)2 0.815 Simpson's Index is 1-0.815, or 0.185 for Community 1 For Community 2: D-1-[(7/20)2+ (8/20)2+(5/20)2] Simpson's Index-1-0.1225+0.16+0.0625] Simpson's Index-l-[0.345] 0.655 So Community 2...
PROBLEM 2 (15 points) (A) Consider the configuration displayed in Fig. la. Two charges of value...
PROBLEM 2 (15 points) (A) Consider the configuration displayed in Fig. la. Two charges of value q are placed at the vertices A and B of an equilateral triangle. Vertex C is at the origin of the coordinate system (0,0,0). Edge AB is in the ry plane and perpendicular to the a axis. Calculate the electric field at vertex C (B) Consider that the triangle is rotated by an angle ф around the z axis, as shown in FigFig. 1b,...
PART A Question 1 4 Figure Q1 Consider the reversible thermal cycle undergone by an ideal gas shown in Fig. Q1. The cycle is formed by two isobars and two isotherms. (a) Calculate the total work...
PART A Question 1 4 Figure Q1 Consider the reversible thermal cycle undergone by an ideal gas shown in Fig. Q1. The cycle is formed by two isobars and two isotherms. (a) Calculate the total work involved in the cycle. Explain whether the gas does work on its surroundings [5 marks] b) Calculate the net heat exchange involved in path 1-3. Express your result in terms of the pressure and volume of the gas. [5 marks] (c) Make a plot...
In each of the six circuits in Fig. P10.108, let β = 100, Cμ= 2 pF, and fT= 400 MHz, and neglect rx and ro. Calculate t...
In each of the six circuits in Fig. P10.108, let
β = 100, Cμ= 2 pF, and fT= 400 MHz, and neglect rx and
ro. Calculate the midband gain AM and the 3-dB frequency fH.
I need all the questions solution with a good way and good hand
writing. thanks.
Problems 805 +20 V +20 V +20 V E10 kn +5 V 10 k 10 kn +5 V o V. 10 kn 10 kn 10 kn Vao sig V ImA...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described as follows. Na atoms sit at the corners and faces of a cube, and Cl atoms sit in between two Na atoms. This means that a Clatom is found half-way along each of the cube edges, and there is a Cl in the center of the cube. (We could also have described the lattice by interchanging Na and Cl in the description above.) Another...
2. Calculate the velocity at each time (except the first and the last one) by using values immedi...
2. Calculate the velocity at each time (except the first and the last one) by using values immediately after and before those times: the tn-- For example, the velocity at point 2 is n Time t (s) Position x (m) Velocity v (m/s) vt (unit-mls) aGou .245 8 3,abus 1.553 3. calculate v/t (what are the units?) and write it in column 5 of the table above. Calculate its average and its uncertainty: Average uncertainty: 4. On the graph paper,...
Question 2 (a) Using the component method, in adding the two vectors: 14 N in the...
Question 2 (a) Using the component method, in adding the two vectors: 14 N in the x direction and 13 N at 45° elevation, (b) : (i) Calculate the momentum of a 8000 kg locomotive travelling at 12 m/s. (ii) This locomotive collides with a stationary carriage of mass 2500 kg and they shunt (stick together). What would be the velocity of the combination, assuming there is negligible friction. (iii) Would kinetic energy be conserved in this collision? Show...
TABLE B.2 Future Value of 1 Rate 2% 3% 5% 6% 7% 8% 0% 12% 15%...
TABLE B.2 Future Value of 1 Rate 2% 3% 5% 6% 7% 8% 0% 12% 15% 1.0000 0000 1.1000 1200 1.2100 12544 1.0303 1.0612 1.0927 1249 1.1576 1.1910 1.2250 1.2597 1290 13310 1.4049 1.5735 1.6105 1.7623 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0100 .0200 1.0300 1.0400 0500 1.0201 .0404 1.0609 1.0816 1.1025 11236 .1449 .1664 1.1881 1.0700 1.0800 1.0900 1.0406 .0824 1.1255 11699 1.2155 1.2625 .3108 3605 1.4116 1.0510 1.1041 .1593 1.2167 1.2763 1.3382 .4026 1.4693 5386...
Experiment Sd 2. Use the data in Table 1 to calculate the percent change in amplitude...
Experiment Sd 2. Use the data in Table 1 to calculate the percent change in amplitude (Am ) activity that occurs between the 0-20 sand 60-80 intervals. Do the same for What accounts for the difference in the percent change observed in grip streng the two time intervals? change in amplitude (AmV) in electrical intervals. Do the same for grip strength. age observed in grip strength and Am V for 3. Compare mean grip strengths and Am V for the...
question about XRD and miller index
how to solve question number 7??
4. (1) Describe the purpose of using a tire code. Explain type and structure of the tire code. Also explain how to improve the adhesion between rubber and tire code and why it is important. [20] (2) Conventional tires are usually composited with carbon black (CB) particles. Explain why the size of CB particles and network structure of CB particles are important to improve the mechanical properties of...
Example 1: Using the data from Communities 1 and 2 above and calculate Simpson's Index For Community 1: 18 of 20 individuals are Species A So for Species A. (pi)2 (18/20)2-0.81 I of 20 individuals are Species B For Species B, (pi)2 (1/20)2-0.025 l of 20 individuals are species C For Species C. (pi)2-(1/2°)2 0.025 Y (pi)2 0.815 Simpson's Index is 1-0.815, or 0.185 for Community 1 For Community 2: D-1-[(7/20)2+ (8/20)2+(5/20)2] Simpson's Index-1-0.1225+0.16+0.0625] Simpson's Index-l-[0.345] 0.655 So Community 2...
PROBLEM 2 (15 points) (A) Consider the configuration displayed in Fig. la. Two charges of value q are placed at the vertices A and B of an equilateral triangle. Vertex C is at the origin of the coordinate system (0,0,0). Edge AB is in the ry plane and perpendicular to the a axis. Calculate the electric field at vertex C (B) Consider that the triangle is rotated by an angle ф around the z axis, as shown in FigFig. 1b,...
PART A Question 1 4 Figure Q1 Consider the reversible thermal cycle undergone by an ideal gas shown in Fig. Q1. The cycle is formed by two isobars and two isotherms. (a) Calculate the total work involved in the cycle. Explain whether the gas does work on its surroundings [5 marks] b) Calculate the net heat exchange involved in path 1-3. Express your result in terms of the pressure and volume of the gas. [5 marks] (c) Make a plot...
In each of the six circuits in Fig. P10.108, let
β = 100, Cμ= 2 pF, and fT= 400 MHz, and neglect rx and
ro. Calculate the midband gain AM and the 3-dB frequency fH.
I need all the questions solution with a good way and good hand
writing. thanks.
Problems 805 +20 V +20 V +20 V E10 kn +5 V 10 k 10 kn +5 V o V. 10 kn 10 kn 10 kn Vao sig V ImA...
EENG 245 Physical electronics HW 1 1) The NaCl crystal is cubic, and can be described as follows. Na atoms sit at the corners and faces of a cube, and Cl atoms sit in between two Na atoms. This means that a Clatom is found half-way along each of the cube edges, and there is a Cl in the center of the cube. (We could also have described the lattice by interchanging Na and Cl in the description above.) Another...
2. Calculate the velocity at each time (except the first and the last one) by using values immediately after and before those times: the tn-- For example, the velocity at point 2 is n Time t (s) Position x (m) Velocity v (m/s) vt (unit-mls) aGou .245 8 3,abus 1.553 3. calculate v/t (what are the units?) and write it in column 5 of the table above. Calculate its average and its uncertainty: Average uncertainty: 4. On the graph paper,...
TABLE B.2 Future Value of 1 Rate 2% 3% 5% 6% 7% 8% 0% 12% 15% 1.0000 0000 1.1000 1200 1.2100 12544 1.0303 1.0612 1.0927 1249 1.1576 1.1910 1.2250 1.2597 1290 13310 1.4049 1.5735 1.6105 1.7623 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0100 .0200 1.0300 1.0400 0500 1.0201 .0404 1.0609 1.0816 1.1025 11236 .1449 .1664 1.1881 1.0700 1.0800 1.0900 1.0406 .0824 1.1255 11699 1.2155 1.2625 .3108 3605 1.4116 1.0510 1.1041 .1593 1.2167 1.2763 1.3382 .4026 1.4693 5386...
Experiment Sd 2. Use the data in Table 1 to calculate the percent change in amplitude (Am ) activity that occurs between the 0-20 sand 60-80 intervals. Do the same for What accounts for the difference in the percent change observed in grip streng the two time intervals? change in amplitude (AmV) in electrical intervals. Do the same for grip strength. age observed in grip strength and Am V for 3. Compare mean grip strengths and Am V for the...
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