load onto the load hanger and suspend it directly beneath one of the spring balances. Note both spring balance readings. • Next move the mass hanger 100mm along bar and note both spring balance readings. Repeat this procedure of incremental movement and readings until mass hanger is suspended directly under the spring balance at the opposite end of beam to the initial step. • Calculate the theoretical beam reactions and use a graph to show the comparison of the two sets of data. 2. PROCEEDURE
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Bending Beam Louisiana State University Joshua Board Table of Contents: Table of Figures: ........................................................................................................................................... 4 Purpose.......................................................................................................................................................... 5 Introduction ........................................................................................
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Applied mechanics laboratory report “Measurement of bending moment and shear forces for structural analysis” Azamat Omarov ID201102658 1.Theory and background 1.1 Summary That performed laboratory session on bending moments and shear forces requires good understanding and sufficient knowledge of axial forces. Bending is defined as a behavior of any structural element that undergoes the external load‚ which is applied perpendicularly to longitudinal axis. That experiment helps us to find
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1. Objective: The objective of this experiment is to demonstrate the bending of a bean when loaded at the center of its length and examine its deflection when positioned in two different ways‚ when the flat side of the beam is support and when the thin side is supported. In addition‚ try to find linear relationship between the load applied and the deflection of the beam and comparing the experimental deflection with the theoretical deflection. If the load is applied at the mid- length a=b=L/2
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moment and displacement in certain point in structure when applied a unit load. Determine the greatest position the greatest value of live load in beam. 4.2 DIFFERENCES BETWEEN INFLUENCE LINE DIAGRAM (ILD) AND BMD (BENDING MOMENT DIAGRAM) INFLUENCE LINE DIAGRAM (ILD) BENDING MOMENT DIAGRAM (BMD) a) Static and Moving Load b) Diagrams show only one point on the beam. c) Calculations based on the virtual load. d) Straight line only e) Calculations do not refer to reactions of beam. f) Unit: m
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On Bending the Rules “But Sir‚ you always remind us of the strict implementation of the rules and regulations‚” the young lady protested. “I didn’t let them in because they didn’t show me the document stipulated in the guidelines.” “Yes‚ but in every rule‚ there is always an exception‚” my friend told his staff. “Just let them in. I know them‚ anyway.” When my friend left‚ the young lady gave us a long inquisitive look before she led us to the room. I explained to her that we ran out of time
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EXPERIMENT NO. 3 BENDING OF BEAMS - (a) Bending Moment I (b) Bending Moment II SECTION 1 GROUP NUMBER 3 GROUP MEMBERS 1. YEOW SU LEE ( CE085335 ) 2. JOUDI J. MOOSOM ( CE085338 ) 3. NINI EZLIN ROSLI ( CE086340 ) 4. MOHD AFIQ AFIFE BIN ABAS ( CE085310 ) 5. ROHAM HADIYOUN ZADEH ( CE085851 ) DATE OF LABORATORY SESSION 6 DECEMBER 2010 DATE OF REPORT SUBMISSION 13 DECEMBER 2010 LAB INSTRUCTOR MISS SITI ALIYYAH MASJUKI LAB REPORT MARKING |
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What factors affect the bending of bridges? Abstract: This experiment was designed and conducted to find out how different factors affect the amount of bending of the beam. The two variables that were tested were the amounts of weight and the position of the weight on the plank. Aim: To find out how weight and different placements of the weight affect the bending of the beam. Hypothesis: It is predicted that the wood will bend more if there is more weight on it. When the weight is positioned
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Bending Moment EXPERIMENT 2B: SHEAR FORCE AND BENDING MOMENT 1. ABSTRACT Performance-based design approach‚ demands a thorough understanding of axial forces. Bending characterizes the behavior of a slender structural element subjected to an external load applied perpendicularly to a longitudinal axis of the element. By this experiment we can verify the limit load for the beam of rectangular cross-section under pure bending. Moments at the specific points are calculated by the method of statics
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CIVE 3202 A6E – Mechanics of Solids II (Winter 2013) Experiment 2: Bending of an aluminum I-beam Introduction “Beams are long straight members that are subjected to loads perpendicular to their longitudinal axis and are classified according to the way they are supported”[1]. When a beam is subjected to an external load there are unseen internal forces within the beam that one must be aware of when implementing it into any design or structure. These internal
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