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AE1_22_23_CLASS 2_22_09_15_STATICALLY DETERMINATE SYSTEMS_EXAMPLES.pptx

P
Pérez Gutiérrez María Concepción

Structural Analysis. Statically Determinate Systems

Engineering
1 of 85
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS cperez.eps@ceu.es molina.eps@ceu.es Hipódromo de la Zarzuela. Madrid 1931. Archiches y Domínguaz. Eduardo Torroja. Assignment 1 year 18/19 STATICALLY DETERMINATE BEAMS AND FRAMES DISPLACEMENTS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS cperez.eps@ceu.es molina.eps@ceu.es
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS PREVIOUSLY IN AE1
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS STRUCTURAL ANALYSIS I 2017/2018 CLASS 2
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS SIMILARITIES AND DIFFERENCES?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS STATICALLY DETERMINATE? REACTION FORCES?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS real bars elongation Δ𝐿 = 𝑁𝐿 𝐸𝐴 It gives us information about the contribution of each member to the displacement we want to calculate vC= 𝑁∗ 𝑥 𝑁𝐿 𝐸𝐴 = −23,48𝑃𝑎 𝐸𝐴
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS It gives us information about the contribution of each member to the displacement we want to calculate vC = 𝑁∗ 𝑥 𝑁𝐿 𝐸𝐴 = 14,48𝑃𝑎 𝐸𝐴 real bars elongation Δ𝐿 = 𝑁𝐿 𝐸𝐴
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS ARE BOTH STATICALLY DETERMINATE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WILL BOTH MOVE HORIZONTALLY? TO THE LEFT OR TO THE RIGHT?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS IN WHICH THE MAXIMUM BENDING MOMENT WILL BE HIGHER?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS IN WHICH THE MAXIMUM VERTICAL DISPLACEMENT WILL BE HIGHER?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS STATICALLY DETERMINATE? REACTION FORCES?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS STATICALLY DETERMINATE? REACTION FORCES?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS P* x uC = 𝑀⋅𝑀∗ 𝐸𝐼 ⅆ𝑥 UNIT LOAD METHOD
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS REMEMBER! WE ONLY CONSIDER MOVEMENTS PRODUCED BY BENDING MOMENTS. WE NEGLECT SHEAR FORCE AND AXIAL FORCE DEFORMATIONS. WE ASSUME BARS ARE INEXTENSIBLE
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS SIMPSON’S RULE
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS P* x uC = 𝑀⋅𝑀∗ 𝐸𝐼 ⅆ𝑥 UNIT LOAD METHOD 𝑀 ⋅ 𝑀∗ 𝐸𝐼 ⅆ𝑥 = SIMPSON’S RULE = 𝑀1 ∙ 𝑀1 ∗ + 4𝑀2 ∙ 𝑀2 ∗ + 𝑀3 ∙ 𝑀3 ∗ 6𝐸𝐼 𝑥 𝐿
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS P* x uC = 𝑀⋅𝑀∗ 𝐸𝐼 ⅆ𝑥 UNIT LOAD METHOD 𝑢𝐶 = 𝑀1 ∙ 𝑀1 ∗ + 4𝑀2 ∙ 𝑀2 ∗ + 𝑀3 ∙ 𝑀3 ∗ 6𝐸𝐼 𝑥 𝐿 = 4 𝑥6,125𝑞𝑎2𝑥4𝑎 𝑥7𝑎 6𝐸𝐼 = 𝟏𝟏𝟒, 𝟑𝟑𝒒𝒂𝟒 /𝑬𝑰
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS P* x uA = 𝑀⋅𝑀∗ 𝐸𝐼 ⅆ𝑥 + 𝑀⋅𝑀∗ 𝐸𝐼 ⅆ𝑥 + 𝑀⋅𝑀∗ 𝐸𝐼 ⅆ𝑥 UNIT LOAD METHOD 𝑢𝐴 = 4 𝑥1,5𝑞𝑎2𝑥1,71𝑎 + 3𝑞𝑎2𝑥3,43𝑎 𝑥 17𝑎 6𝐸𝐼 + 3,43𝑞𝑎2𝑥4𝑎 + 4𝑥6𝑞𝑎2𝑥1,71𝑎 𝑥6𝑎 6𝐸𝐼 + −4𝑥6,125𝑞𝑎2𝑥2𝑎 𝑥7𝑎 6𝐸𝐼 = 𝟒, 𝟕𝟓𝒒𝒂𝟒 /𝑬𝑰 INCLINED SUPPORT BEAM DE BEAM EF
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS q=10 kN/m // a = 0,5 m // EI =30000 kNm2 2,38 mm -0,1 mm u=1,19 mm u=1,19 mm u=1,19 mm v=-0,34 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS SIMPLE BEAMS FORMULAS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHERE IN THIS FRAME CAN WE APPLY EASILY THE SIMPLE BEAM FORMULAS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS 𝑣(𝐸𝐹) = −5𝑞 𝐿4 384𝐸𝐼 = -0,65 mm v=-0,65 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS cperez.eps@ceu.es federico.prietomunoz@ceu.es 19,53 mm 9,96 mm v=-2,5 mm u=9,96 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS cperez.eps@ceu.es federico.prietomunoz@ceu.es
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS ARE ALL OF THEM STATICALLY DETERMINATE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS REMEMBER: THE LOAD FOLLOWS THE SHORTEST WAY TO REACH THE GROUND
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH BARS ARE GOING TO WORK IN EACH TRUSS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH BARS ARE GOING TO WORK IN EACH TRUSS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH BARS ARE GOING TO WORK IN EACH TRUSS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS AXIAL FORCES
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS DO THESE RESLTS MAKE SENSE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS CAN WE APPLY THE SUPERPOSITION PRINCIPLE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS TO CALCULATE THE HORIZONTAL DISPLACEMENT AT THE ROLLER WE MUST USE AN AUXILIARY SYSTEM CAN THIS SYSTEM BE THE SAME FOR EVERY TRUSS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS CAN WE APPLY THE SUPERPOSITION PRINCIPLE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BEAM 5 BEAM 6 LET’S COMPARE THESE BEAMS BEHAVIOUR
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BEAM 5 BEAM 6 BOTH BEAMS REACTION FORCES ARE EQUAL WHY? WHAT WOULD HAPPEN IF A WAS FIXED SUPPORTED INSTEAD OF PINNED?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BENDING MOMENTS DIAGRAM
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH EFFECTS AFFECT THE VERTICAL DISPLACEMENT AT THE END OF THE CANTILEVER? BEAM 5
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS THE EFFECT OF THE CANTILIVER IMPLIES A ROTATION 0 AT THE FIXED END
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS TO CALCULATE THE ROTATION AT B … WHICH EFFECTS DO WE HAVE TO CONSIDER? BEAM 5
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS THE EFFECT OF THE DISTRIBUTED LOAD PLUS THE EFFECT OF THE END MOMENT
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS THE VERTICAL DISPLACEMENT AT C IS THE ADDITION OF THE ROTATION AT B EFFECT PLUS THE CANTILEVER LOAD EFFECT
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BEAM 6 TO CALCULATE THE VERTICAL DISPLACEMENT AT C… WHICH EFFECTS DO WE HAVE TO CONSIDER?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS TO CALCULATE THE VERTICAL DISPLACEMENT AT C… WHICH EFFECTS DO WE HAVE TO CONSIDER? BEAM 6 WE MUST CONSIDER SAME AS BEAM (5) PLUS THE EFFECT OF THE CABLE ELONGATION
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BEAM 6
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BEAM 6 WE WOULD GET SAME RESULT IF WE APPLY UNIT LOAD METHOD WATCH OUT!!!!! WE SHOULD CONSIDER THE BENDING MOMENTS OF THE BEAM AND THE AXIAL FORCE IN THE CABLE!
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS TODAY’S WORDS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS IS THIS A STATICALLY DETERMINATE SYSTEM? WHAT HAPPENS IF WE REMOVE THE CABLE AF?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH LOADS AFFECT THE CABLE AXIAL FORCE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH PART OF THE SYSTEM IS AFFECTED BY THE DISTRIBUTED LOAD q?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS REMEMBER: THE LOAD FOLLOWS THE SHORTEST WAY TO REACH THE GROUND
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS CABLE AXIAL FORCE? Equilibrium equation: MG = 0 - P x 6a + P x 4 a + N x 2a = 0 N = P Gy = 3P
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH BARS ARE NOT GOING TO WORK?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS BARS AXIAL FORCES? (JOINTS EQUILIBRIUM)
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHAT HAPPENS IN THIS KIND OF FOUNDATIONS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS STRUCTURAL ANALYSIS I 2017/2018 CLASS 3 DO THESE RESLTS MAKE SENSE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS + CAN WE APPLY THE SUPERPOSITION PRINCIPLE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS WHICH DISPLACEMENTS CAN WE CALCULATE MORE EASILY? WHY ARE THESE TWO DIAGRAMS USEFUL TO COMPUTE THE DISPLACEMENTS?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS VERTICAL DISPLACEMENT AT F ONLY THE CABLE AXIAL FORCE AFFECTS IT vF = N x L / EA vF = 3P x 6a / 65971,5 F goes up vF varies from 1,81 mm to 3,8 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS HORIZONTAL DISPLACEMENT AT G ONLY THE COLUMN BG BENDING MOMENT AFFECTS IT uG = 4,5qa x (6a + 4 x 4,5a + 3a)/(6x 52857) x 3a uG varies between 11,49 and 55,37 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS HORIZONTAL DISPLACEMENT AT D ONLY THE COLUMN BG BENDING MOMENT AFFECTS IT uD = 4,5qa2 x (3a + 4 x 1,5a + 0)/(6x 52857) x 3a uD varies between 3,83 and 18,46 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS VERTICAL DISPLACEMENT AT D THE COLUMN BG AND THE BEAM CD BENDING MOMENTS AFFECTS IT vD = 3qa2 + 4 x 3a + 3a)/(6x 52857) x 3a + (4,5qa2 x 3a + 4 x 1,125qa2 x 1,5a + 0)/(6x11970) x 3a vD varies between -16,1 and -77,7 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS VERTICAL DISPLACEMENT AT J THE TRUSS AND THE CABLE AXIAL FORCE AFFECT IT vJ = S (N* x N x L / EA)for each bar + P x (-3) /65951 vJ varies between -12,21 and -25,67 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS VERTICAL DISPLACEMENT AT I THE TRUSS AND THE CABLE AXIAL FORCE AFFECT IT vJ = S (N* x N x L / EA)for each bar + P x (+2) /65951 vJ varies between 4,81 and 10,11 mm
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS REMEMBER! IN BEAMS A COLUMNS WE ONLY CONSIDER MOVEMENTS PRODUCED BY BENDING MOMENTS. WE NEGLECT SHEAR FORCE AND AXIAL FORCE DEFORMATIONS. WE ASSUME BARS ARE INEXTENSIBLE UNLESS CABLES OR TRUSSES ARE INVOLVED
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS IS IT UNSTABLE, STATICALLY DETERMINATE OR STATICALLY INDETERMINATE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS IS IT UNSTABLE, STATICALLY DETERMINATE OR STATICALLY INDETERMINATE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS IS IT UNSTABLE, STATICALLY DETERMINATE OR STATICALLY INDETERMINATE?
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS 1 2 3 4 5 6 7
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS
cperez.eps@ceu.es molina.eps@ceu.es STRUCTURAL ANALYSIS I DEGREE IN ARCHITECTURE Year 3 Term 1 STATICALLY DETERMINATE SYSTEMS

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