4 [3 pts] Explain the similarit(ies) and dissimilarit(ies) between portal method' and 'cantilever method' of approximate...
Determine the approximate axial forces,
shears, and moments for all the members of the frames
shown by using the portal
method and cantilever method.
Homework help
4.2 Lateral load Use portal method approximate analysis) to analysis the frame and write down the results in table below Table 3 Lateral load approximate analysis results Membe Normal Shar Momen r End force force t A B BF C CG where P1= 16Kn P2 = 15kn L1 = 7 L2 = 5m L 3 = 6m hl=3m h 2 = 31 le DH EA E EF FE F FE FG FI GF GC G GH HG HO...
Problem 3 For the cantilever bean illustrated, a moment of 400 lb-ft is applied at point B Deternine all of the internal loadings at the following locations. Clearly draw free bedy diazrams used in calculations so h a) Determine the support reactions at 4. (8 pts.) 400 - ion b) Determine all of the internal loadings at point C (just to the left of B) (8 pts) c) Determine all of the internal loadings at point D (just to the...
4. The shown cantilever beam has a 4" x 3" rectangular cross section. It is loaded at its free end with a vertical load of 400 lb (-y direction) and a horizontal load of 500 lb (+x direction), as shown in the figure. You are considering a cut 10 in away from the free end of the cantilever. In the cross section of the cut, point B resides at the side surface of the beam 1 in away from it...
Major Question 3 4 pts What is the approximate pK, of the weak acid being titrated? pH 14 equivalence point 25 volume of all added on A) 2.6 B) 4.8 C) 9.2 D) 13 Ос OB OA 4 pts Question 4
3:42 Exit This problem refers to the cantilever beam with a triangular load as shown below. Based on the image of the section FBD (at the bottom), what is the equation for the height of the triangular load as a function of distance from point A (function that should be in the box next to "w(x) ="). 30 / 7777 9 ft sor 30 lb/ 8101bft 135 lb FBD and equilibrium equations to find V6) and Mix) 8101bft CUT 135...
3. Euler's Method (a) Use Euler's Method with step size At = 1 to approximate values of y(2),3(3), 3(1) for the function y(t) that is a solution to the initial value problem y = 12 - y(1) = 3 (b) Use Euler's Method with step size At = 1/2 to approximate y(6) for the function y(t) that is a solution to the initial value problem y = 4y (3) (c) Use Euler's Method with step size At = 1 to...
stress analysis
ASAP please
Question 5 1201 (Energy Method): 5) Determine the equation of the deflection curve of the cantilever beam loaded as shown in Figure. 3. Use as the deflection shape of the loaded beam Figure 3
Question 5 1201 (Energy Method): 5) Determine the equation of the deflection curve of the cantilever beam loaded as shown in Figure. 3. Use as the deflection shape of the loaded beam Figure 3
Use Newton’s Method to approximate a critical number of the function ?(?)=13?^3−5?−7 near the point ?=2 . Find the next two approximations, x2 and x3 using x1=2 as the initial approximation
4. (12 pts) Please explain the following questions. (a) (3 pts) What is the relationship between slopes of demand curve and price elasticity of demand? (b) (3 pts) How do substitute and complementary goods affect the demand for a good? (c) (3 pts) How do changes in income affect the demand for a good? (d) (3 pts) What is cross-elasticity of demand?