Using the moment-area method determine the deflection at point C of the beam shown below. Supports in A and B are pin and roller, respectively. Consider EI =const.
Using the moment-area method determine the deflection at point C of the beam shown below
2 - Using moment area method, for the beam shown in Figure P-2 find deflection at the center (point C) and rotation under the concentrated load (point D). Also, find location and value of the maximunm deflection. EI constant. 3- Repeat Problem 2 where I for CB is twice as large as I for AC. 4 - For the beam shown in Figure P-3, find the reactions and draw shear and moment diagrams. A is fixed, B and D are hinges, and...
1 - (50%) Use the moment area method to determine deflection at point A, and rotation (slope) to the right of point C. EI is constant. B is a roller support, C is a hinge, and D is fixed. Also, if E = 29,000 ksi and I = 90,000 in^ what is the value of deflection at C. - 60k rok A - B - 30tk 30* 30 * 457
Use Moment Area Theorems in the beam shown in figure 3 to determine the following: a- Deflection at C. b- Deflection at D. c- Slope at C. d- Slope at D. Use E for modulus of elasticity and I for the moment of inertia for the whole beam. 20KN B k C pin Roller 4m 6m 4m Figure 3
Question 2 Consider the beam and loading shown in the figure below. Using moment-area method, determine reactions at the supports. Hint: Spilt the loading using superposition to simplify the problem. Parabola Areebie
Question 3 Use Moment Area theorems in the beam shown in Figure 3 to determine the following: a-Deflection at C. b-Deflection at D. Use E for modulus of elasticity and I for moment of inertia for the whole beam. Q.3 20KN toler B → С D pin Roller 4m Figure 3 —
Question 3 Use Moment Area theorems in the beam shown in Figure 3 to determine the following: a- Deflection at C. b- Deflection at D. - Slope at C. d- Slope at D. Use E for modulus of elasticity and I for moment of inertia for the whole beam. 0.3 CI 20kr IDEN B C pin Roller 4m Figure 3
3.) Determine the maximum deflection and the maximum slope for beam shown below using either the moment area method or the conjugate beam method. (25P) 120 kN A AE ー10m ㅡㅡ 5 m EI constant E -200 GPa 1 = 700(106) mnm4
Question 3 Use Moment Area theorems in the beam shown in Figure 3 to determine the following: a- Deflection at C. b- Deflection at D. C- Slope at C. d- Slope at D. Use E for modulus of elasticity and I for moment of inertia for the whole beam. 0.3 20KN t B 2014 C D Pin Roller 4m 6m 4m figure 3
Question 3 Use Moment Area theorems in the beam shown in Figure 3 to determine the following: a- Deflection at C. b- Deflection at D. — Q.3 20KN biler B joe K с D Pin Roller 4m 6m 4m Figure 3
Using the method of superposition, determine the deflection of the beam shown at point C. - B L a