Question 2: (1.25x15-20 marks). a) in tabie (I), write down the name of the beam. Then,...
Question 5: (10 marks) For the shown beam; i) Complete and choose the correct answer Number of Equations: The beam is (Stable -Unstable) (Determinate- indeterminate) Determinacy is to -degree? ii) Using the moment distribution method, Find the moment value at the points; iii) Draw BM and SFD? a; b; c and at the mid of the two spans? L 6.00 L-6.00 Figure (2)
Part A - Question 3 (Total Marks for Part A - Question 3:20) A steel beam in an industrial structure is part of a complicated frame that was difficult to analyse. Using a rectangular strain gauge rosette, the actual strains at point A have been recorded while being subjected to test loads. It is necessary to determine the normal stresses and shear stresses in the actual beam subject to the test loads to check whether the stresses assumed in the...
consider the beam and the loading
Question #3: (8 marks/20) I/I BET el, e2 and e3) Consider the beam and the loading shown in the following figure (Figure #3). Determine: 1- The reactions at the roller A and the pin B. [ABET: el- 4 Marks] 2- The shear force and bending moment at point C. [ABET: e3-2 Marks] 3- The shear force and bending moment at point D. [ABET: e3- 2 Marks] 500 lb 200 lb 300 lb
finite element method
Expert Q&A Done Finite element method QUESTION 2 (20 Marks) Concept question of a horeoital steel beam ) State clearly the element types of (c) What are direct sess and combined sress? Desorbe in words how (s marks 25 KN 1.8 m 10 mm 100 mm 1.0 m ←1.5 m 3.0 m Figure 2 Diagram for Question 2
Expert Q&A Done Finite element method QUESTION 2 (20 Marks) Concept question of a horeoital steel beam ) State...
Question 1 (20 marks total) For the cross-section given in Figure 1, a) determine the distance y to the centroid; (10 marks) b) find the moment of inertia about the x'axis. (10 marks) V 30 mm 30 mm 70 mm 140 mm 30 mm 30 mm 170 mm Figure 1 Question 2 (20 marks total) For the beam in Figure 2, a) determine the reaction forces at A and B; (4 marks) b) develop shear and bending moment equations in...
1. (20 marks) This question is about the system of differential equations Y. dt=(k 1 (a) Consider the case k = 0. i. Determine the type of equilibrium at (0,0) (e.g., sink, spiral source). ii. Write down the general solution. iii. Sketch a phase portrait for the system. (b) Now consider the case k3 In this case, the matrix has an eigenvalue 2+V/2 with eigenvector i. -1+iv2 and an eigenvalue 2 iv2 with eigenvector . Determine the type of equilibrium...
Question 2
Write down the equations of motion of a bead on a wheel:
(a) from the frame of the wheel
(b) from the frame of the ground
(c) Write the equations of motion of a charged particle q in a
static electric field that is orthogonal to a magnetic field.
Recall: F = q(E + V x B) Lorentz force law. Hint: mimic the
derivation for a charged particle in a magnetic field. You should
get x'' = -2x...
Question 2
Write down the equations of motion of a bead on a wheel:
(a) from the frame of the wheel
(b) from the frame of the ground
(c) Write the equations of motion of a charged particle q in a
static electric field that is orthogonal to a magnetic field.
Recall: F = q(E + V x B) Lorentz force law. Hint: mimic the
derivation for a charged particle in a magnetic field. You should
get x'' = -2x...
20 KN 20 kN/m From the figure load given, the beam AB is I profile (S shape, American standard, see appendix) Determine: a) The support force A and C. b) Draw the shear force and bending moment diagram. Write down the value on your diagram c) Determine the size of the I beam, write down (or mark on the I beam table in appendix) the type you choose to the nearest calculation. A B 1.5 m 1.5 m 2.2 m...
Question 1 - (20 Marks) (a) Explain the following terms: i. Spur gear ii. Velocity ratio (VR) of two spur gears iii. Gear train [2 mark] [2 mark] [2 mark] (b) Design the spur wheels, having a velocity ratio of 4 and the pitch of teeth as 8 mm. The approximate distance between the two shafts is 350 mm. 114 marks Question 2 - (20 Marks) Bar AB in Figure Q2 rotates at 5 rad/s in the clockwise direction. (a)...