1. Qualitatively sketch the deformed shape and the direction of all reactions for the structures given...
1. Qualitatively sketch the deformed shape and the direction of all reactions for the structures given below. (10pts) Moment release b. d. e.
For Problem 8.21 qualitatively sketch the deformed shape of the structures for the given loads. Also sketch the direction of all reactions. P8.21 Problems 8.21
Problem 8 For the lengths and show directions of all reactions a) structures in Figure 8 sketch clearly the deformed shape and the bending moment cate points of contraflexure, clearly distinguish between curved and straight b) c) Figure 8 Problem 8
P8.26 [The qualitative moment diagrams are given for each beam. Use the moment diagram to help sketch the qualitative deformed shapes. Identify the direction of all reactions] Мoment release M Problem 8.26
For the following problems, the qualitative moment diagrams are given for each beam. Use the moment diagram to help sketch the qualitative deformed shapes. Identify the direction of all reactions. Shear release We were unable to transcribe this image
For the frame shown in Figure 2, sketch the location, type and direction of reactions, the shape or form of the deflected shape and the bending moment, shear force and axial force diagrams that you would expect. POINT LOAD Figure 2
Sketch (qualitatively) the influence line for (a) the vertical reaction at C, (b) the moment at B, and (c) the shear at E. In each case, indicate on a sketch of the beam where a uniform distributed live load should be placed so as to cause a maximum positive value of the corresponding force/moment investigated. Assume the beam is fixed at F. Supports at A, C, and D are rockers (roller supports) E F 4 m iTm Sketch (qualitatively) the...
USE MOMENT DISTRIBUTION METHOD TO SOLVE: Q.4 For the frame shown in Fig. 4, (1) Analyse the frame assuming lbeam2l and lcoI (2)Plot the moment diagram and sketch the deformed shape. You must show in the diagram: (a) relevant values at the "strateaic" points: (b) magnitude(s) and location(s) of the local maximum or minimum moment(s); and (c) location of contraflexural point(s). (Hint: make use of the principle of superposition.) (Answer: MBA102.71 kNm) 12kN 1.2kN/m 1.2kN/m 30m 30m 10 20m 20...
a Determine the reactions b) Draw the shear and moment diagrams c) Sketch the deflected shape
Part C: Computer Modeling 1. Sketch the Lewis structures for CH, NH, and CHF below and complete the other predicted properties. Record all data from the computer modeling below. NH VSEPR Prediction CH, Lewis structure Molecular shape Bond angle(s) Polar or nonpolar Computational Prediction Molecular shape (use wedges and dashes to sketch in 3D) Bond angle(s) Dipole moment 2. Compare the predicted bond angle for NH with the computational prediction. Explain why the bond angles differ 3. Compare the calculated...