Bodies of Revolution Problem 16. Use the following figure. Determine the surface area of the cylindrical...
Please show all work made. Thank you Problem #2 For this problem please use the figure below , e=0.52 G, 2.66 10 ft □ Dry Sand Clay a. Calculate the variation of, u, and σ' with depth. b. If the water table rises to the top of the ground surface, what is the change in the effective stress at the bottom of the clay layer?
Problem 2 (40 pts): The cylindrical capacitor whose cross-section is in the following figure has inner and outer radius of 10 mm and 30 mm, respectively. If V(p 10 mm) 100 V and V(p 30 mm) = 0 V, find V, E, and D at 15 mm and surface charge density ps on each plate. The dielectric constant &r-5 Solution: 10 30 mm
Please solve the following problem and show all work. Thank you! Prob. 1 Use Moment Area and find the deflections at B & D Find the slope at A, the right of B and the right of D 20k 200 k-ft 2 k/ft B C 8' 6' 12' 10' AB, DE: El; B-C-D: 2ElI
Implement an analytical solution for the following problem: Use Liebmann’s method (Gauss-Seidel) to solve for the temperature of the heated plate in the figure. Employ overrelaxation with a value of 1.5 for the weighting factor and iterate to εs = 10%. Then find the rate of heat flux (q) across the plate’s surface at the points shown. Assume that the plate is 40 Χ 40 cm and is made out of aluminum with the coefficient of thermal conductivity K= 0.5...
Could someone please help with this problem parts a-f 2. Use Figure 1 and Table 1 for the following a) Compute the vertical effective stress (o) in kN/m2 at the center of the clay layer prior to the construction of the footing. [Note: To compute c., you will first have to use the weight-volume relationships to compute the unit weight of the clay.] b) Assuming B 15 m, L 2.5 m, and Q-120 kN, use the Boussinesq procedure to determine...
Consider a cylindrical capacitor like that shown in Fig. 24.6. Let d = rb − ra be the spacing between the inner and outer conductors. (a) Let the radii of the two conductors be only slightly different, so that d << ra. Show that the result derived in Example 24.4 (Section 24.1) for the capacitance of a cylindrical capacitor then reduces to Eq. (24.2), the equation for the capacitance of a parallel-plate capacitor, with A being the surface area of...
Hi, could you please help me by providing an accurate worked solution for the following problem. I have included the answers at the bottom of the page. I will leave you feedback that reflects the quality of your answer. Thank you kindly Consider a member wih a rectangular cross sechion subjected to a Campressive Icad p which is delivered tragh a rigid block on me upper end of me membe as illu stated belon Tne uper end of hhe member...
find v belt drive design power select belt type determine shive size (belt speed 4000 ft/min) find shive size from power rating figure find rated power find estimated centre distance find belt length (by selecting standard belt length) calculate actual centre distance find contact angle for small shieve determine correct factors calculate correct power per belt no. of belt needed V-Belt Designing Sample Problem . Given: A 4 cylinder diesel engine runs at 80 hp, 1800 rpm, to drive a...