Problem Solving: Round off your final answer to 2 decimal places. 3m 3 m 4 m 1 *Members along Level 2 20 KN 15 kN 10 kN 1 2 Di L4 HI *Members along Line 3 C Regular Hexagon with side = 300 mm B L2 F A L3 G 3 m -3m- For the frame provided below, consider the following properties: Solve the following for ALL members: 1. Axial Forces 2. Shear Forces 3. Moments E W Using the following methods: 1. Cantilever Method 3 K! Equilateral Triangle with side = 650 mm *Members along Level 3 Regular Trapezoid with longer side = 500 mm, shorter side = 400 mm, Height = 500 mm -3 m *Members along Level 4 Regular Trapezoid with longer side = 300 mm, shorter side = 200 mm, Height = 400 mm 4 *Members along Line 1 Hollow Circular Tube, Outer Diameter = 550 mm, Inner Diameter = 350 mm M₁ *Members along Line 2 Hollow Square Tube, Outer Breadth & Height = 500 mm, Inner Breadth & Height = 300 mm *Members along Line 4 Hollow Circular Tube, Outer Diameter = 400 mm, Inner Diameter = 300 mm
Problem Solving: Round off your final answer to 2 decimal places. 3m 3 m 4 m 1 *Members along Level 2 20 KN 15 kN 10 kN 1 2 Di L4 HI *Members along Line 3 C Regular Hexagon with side = 300 mm B L2 F A L3 G 3 m -3m- For the frame provided below, consider the following properties: Solve the following for ALL members: 1. Axial Forces 2. Shear Forces 3. Moments E W Using the following methods: 1. Cantilever Method 3 K! Equilateral Triangle with side = 650 mm *Members along Level 3 Regular Trapezoid with longer side = 500 mm, shorter side = 400 mm, Height = 500 mm -3 m *Members along Level 4 Regular Trapezoid with longer side = 300 mm, shorter side = 200 mm, Height = 400 mm 4 *Members along Line 1 Hollow Circular Tube, Outer Diameter = 550 mm, Inner Diameter = 350 mm M₁ *Members along Line 2 Hollow Square Tube, Outer Breadth & Height = 500 mm, Inner Breadth & Height = 300 mm *Members along Line 4 Hollow Circular Tube, Outer Diameter = 400 mm, Inner Diameter = 300 mm
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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Step 1: Given data
VIEWStep 2: By using portal method to Finding the horizontal shears developed in each column of the frame:-
VIEWStep 3: Finding the axial and shear forces of all members of the given frame:-
VIEWStep 4: Finding axial forces shear forces of all members of the given frame:-
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