Question 3 (6) The structure below is a frame supported by a pin at Cand a...
AB length is 4000mm
AD length is 3000mm
A pin jointed frame ABCD is supported by a pinned support at A, a roller at B and is subjected to the loading indicated in Figure Q1. All members have circular cross-section and all are made of steel materials with same cross-section. Determine the support reactions at A and B Determine all the member forces Find out the horizontal displacement at point C using a table template as shown in Table Q1....
The rigid frame shown below is supported by Pin A and Roller C. [Point B is a rigid joint.] The frame supports a uniformly distributed load of 20 kN/m (downward) in Region BC, and a 250 kN point load (downward) located halfway between Pin A and rigid joint B. The modulus of elasticity of the entire frame is E = 200 GPa and the moment of inertia is I = 500 x 106 mm4. Determine the rotation (slope) at Joint...
My answers are incorrect. need help
The structure shown below is supported by a pin and roller on an inclined surface that is parallel to the line connecting joints A and G. Given that P= 480 lb. 18 in.+ 18 in.+18 in. +18 in. PI Тc Determine the force supported by the members CD, CI, and IJ. The force supported by the members CD, CI, and IJ is as follows: FCD=-349.602 lb Fci=-224.322 1b Fiy=[ 901.904 1b
PlOBlem 4 (10 points) 2 m 3 m The frame is made up of members ACE, BCD and DE. The frame is pin- 6 m supported at A and roller-supported at B. On member ACE, determine the 2 m magnitudes and directions of forces acting at pins C and E Hint: Begin with overall free body 3 m diagram 600 N 5 m
PlOBlem 4 (10 points) 2 m 3 m The frame is made up of members ACE, BCD...
Q1. Two rigid members (BCDE and EKN) are connected by a pin at E. The structure is supported by a pin at B and two rollers at D and N. An inclined distributed load is acting between E and K with the horizontal (12 kN/m) and vertical (16 kN/m) components. Neglect own weights and thicknesses of the members. f w 26.667 kN/m, 1.5m Draw necessary free body diagrams and determine the reaction forces at roller supports (D and N) and...
QUESTION 1 In the frame shown below dimension His 7m, y is 3m, L is 7m, x is 4m, I is 4m, h is 3m. External loads are: the horizontal point load P of 2kN is applied at B, the clockwise moment M of 5kNm is applied at D, the vertical uniformly distributed load w of 1kN/m is applied on bar FJ. Calculate reactions of supports. Note that this frame has two internal pins; at Cand at F. What is...
Question 12 A column ABC is supported at ends A and Cand compressed by an axial load P (figure a). The column is pin-supported at the ends (support A and C). Lateral support is provided at point B but only in the plane ZX. The column is constructed of two channel sections (C6 x 8.2) back to back (see figure). (Given: A=4.78 in?, 1x=26.2 in*, Ly=2.627 in^, E = 29,500 ksi and o, = 36 ksi) 1. Determine the largest...
Question 12 20p A column ABC is supported at ends A and Cand compressed by an axial load P(figure a). The column is pin-supported at the ends (support A and C). Lateral support is provided at point B but only in the plane ZX. The column is constructed of two channel sections (C6 x 8.2) back to back (see figure). (Given: A=4.78 in?, Ix=26.2 in", ly=2.627 in“, E = 29,500 ksi and , = 36 ksi) 1. Determine the largest...
AB= 3000mm
AD= 4000mm
especially struggling with part 3 of this question.
and Q.) A Jointed frame pinned Support A, a to the loading indicated have Circular Cross-Section materials. roller Figure and supported by a subjected ALL members made of steel all are at A and D . Determine the support reactions 2) Determine the member forces, all at point a using 3) Find out the Horizontal displacement template provided. table • 40kn Free or simply Booom, A Figure Q1:...
Question I.5 Figure 1.5 shows a frame with loads at A and D. Select the closest value for the magnitude of the total reaction at B. Assume the weight of the frame is zero. 40 kN VE 96.2 kN (a) (Ь -40 kN 5 m (c) -87.5 kN 30 kN (d) 57 kN 4m ao 1 m (e) 50 kN Figure L.5 Low mass frame Question I.6 In the shear and bending moment equations for beams, which of the following...