Using Muller-Breslau’s principal, draw the influence lines for the Shear and Bending Moment at point E.
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Using Muller-Breslau’s principal, draw the influence lines for
the Shear and Bending Moment at point E....
ct the influence lines for the vertical reactions at suppurls G, the shear and bending moment at point F of the beanm in the Figure. Use Equilibrium method or Muller-Breslau's principle metho...
ct the influence lines for the vertical reactions at suppurls G, the shear and bending moment at point F of the beanm in the Figure. Use Equilibrium method or Muller-Breslau's principle method. (25 points) Hinge
ct the influence lines for the vertical reactions at suppurls G, the shear and bending moment at point F of the beanm in the Figure. Use Equilibrium method or Muller-Breslau's principle method. (25 points) Hinge
Question 2: A simply supported beam under loading as shown in Figure 1: 1. Draw the influence lines of the bending moment and shear force at point C (L/4) Using the influence lines to determine t...
Question 2: A simply supported beam under loading as shown in Figure 1: 1. Draw the influence lines of the bending moment and shear force at point C (L/4) Using the influence lines to determine the bending moment and shear force at section C due to the loading as shown in the figure. 2. 3. There is a distributed live load (w#2.5kN/m) which can vary the location along the beam. Determine the location of the live loads which create the...
Using muller principle, draw a 5 m 6 m a) sShear & bending moment at point...
Using muller principle, draw a 5 m 6 m a) sShear & bending moment at point C b) Determine the maximum positive and negative shears and the maximum positive and negative bending moments at point C due to (i) concentrated live load of 150 kN (ii) uniformly distributed live load of 50 kN/m, and (iii) the uniformly distributed live load of 50 kN/m with 4 m length
draw the influence line , use muller breslau principle CALCULATION KEY ORDINATES OF THE influence diagrams...
draw the influence line , use muller breslau principle
CALCULATION KEY ORDINATES OF THE influence diagrams drawn.
Q1) Draw the influence line for reaction at A.
Q2)Draw the influence line for shear D.
Q3)Draw the influence line for moment at D.
Q4)Draw the influence line for moment at C.
Q)5The live load is 100kN/m. Calculate the maximum positive and
moment that could be generated at point D to the uniform live
load
B Hinge 2 m 2 m...
Problem #2 6-7. Draw the influence lines for (a) the moment at B (b) the shear...
Problem #2 6-7. Draw the influence lines for (a) the moment at B (b) the shear at B, and (c) the vertical reaction at A. Solve this problem using the basic method of Sec. 6.1. Hint: The support at C resists only a horizontal force and a bending moment.
please I need the answer immediately..thanks. Q4: Using the Muller-Breslau principle, construct the influence lines for:...
please I need the answer immediately..thanks.
Q4: Using the Muller-Breslau principle, construct the influence lines for: (a) the vertical reaction at B, (b) the shear at C, and (c) the moment at C. Show through calculations the values on the IL diagram at critical points. [20 Marks) A B 1.5 m 2 m Im + 1.5 m 1 IL for By IL for V IL for Me
Draw influence lines for moment (10 points) t E, shear to the left of E, and...
Draw influence lines for moment (10 points) t E, shear to the left of E, and shear to the right of shear to 12"
draw the influence line , use muller breslau principle CALCULATION KEY ORDINATES OF THE influence diagrams drawn. Q1) D...
draw the influence line , use muller breslau principle
CALCULATION KEY ORDINATES OF THE influence diagrams drawn.
Q1) Draw the influence line for reaction at A.
Q2)Draw the influence line for shear D.
Q3)Draw the influence line for moment at D.
Q4)Draw the influence line for moment at C.
Q)5The live load is 100kN/m. Calculate the maximum positive and
moment that could be generated at point D to the uniform live
load
B Hinge 2 m 2 m...
explain how to draw the shear and bending moment diagram. 4. Draw the shear and bending...
explain how to draw the shear and bending moment
diagram.
4. Draw the shear and bending moment diagrams for the beam and loading shown (include values on the shear and moment diagrams at points A, B, and ).
a influence line question , use muller breslau principle CALCULATION KEY ORDINATES OF THE influence diagrams...
a influence line question , use muller breslau principle
CALCULATION KEY ORDINATES OF THE influence diagrams drawn.
Q1) Draw the influence line for reaction at A.
Q2)Draw the influence line for shear D.
Q3)Draw the influence line for moment at D.
Q4)Draw the influence line for moment at C.
Q)5The live load is 100kN/m. Calculate the maximum positive and
moment that could be generated at point D to the uniform live
load
B Hinge 2 m 2 m...
ct the influence lines for the vertical reactions at suppurls G, the shear and bending moment at point F of the beanm in the Figure. Use Equilibrium method or Muller-Breslau's principle method. (25 points) Hinge
ct the influence lines for the vertical reactions at suppurls G, the shear and bending moment at point F of the beanm in the Figure. Use Equilibrium method or Muller-Breslau's principle method. (25 points) Hinge
Question 2: A simply supported beam under loading as shown in Figure 1: 1. Draw the influence lines of the bending moment and shear force at point C (L/4) Using the influence lines to determine the bending moment and shear force at section C due to the loading as shown in the figure. 2. 3. There is a distributed live load (w#2.5kN/m) which can vary the location along the beam. Determine the location of the live loads which create the...
Using muller principle, draw a 5 m 6 m a) sShear & bending moment at point C b) Determine the maximum positive and negative shears and the maximum positive and negative bending moments at point C due to (i) concentrated live load of 150 kN (ii) uniformly distributed live load of 50 kN/m, and (iii) the uniformly distributed live load of 50 kN/m with 4 m length
draw the influence line , use muller breslau principle
CALCULATION KEY ORDINATES OF THE influence diagrams drawn.
Q1) Draw the influence line for reaction at A.
Q2)Draw the influence line for shear D.
Q3)Draw the influence line for moment at D.
Q4)Draw the influence line for moment at C.
Q)5The live load is 100kN/m. Calculate the maximum positive and
moment that could be generated at point D to the uniform live
load
B Hinge 2 m 2 m...
Problem #2 6-7. Draw the influence lines for (a) the moment at B (b) the shear at B, and (c) the vertical reaction at A. Solve this problem using the basic method of Sec. 6.1. Hint: The support at C resists only a horizontal force and a bending moment.
please I need the answer immediately..thanks.
Q4: Using the Muller-Breslau principle, construct the influence lines for: (a) the vertical reaction at B, (b) the shear at C, and (c) the moment at C. Show through calculations the values on the IL diagram at critical points. [20 Marks) A B 1.5 m 2 m Im + 1.5 m 1 IL for By IL for V IL for Me
Draw influence lines for moment (10 points) t E, shear to the left of E, and shear to the right of shear to 12"
draw the influence line , use muller breslau principle
CALCULATION KEY ORDINATES OF THE influence diagrams drawn.
Q1) Draw the influence line for reaction at A.
Q2)Draw the influence line for shear D.
Q3)Draw the influence line for moment at D.
Q4)Draw the influence line for moment at C.
Q)5The live load is 100kN/m. Calculate the maximum positive and
moment that could be generated at point D to the uniform live
load
B Hinge 2 m 2 m...
explain how to draw the shear and bending moment
diagram.
4. Draw the shear and bending moment diagrams for the beam and loading shown (include values on the shear and moment diagrams at points A, B, and ).
a influence line question , use muller breslau principle
CALCULATION KEY ORDINATES OF THE influence diagrams drawn.
Q1) Draw the influence line for reaction at A.
Q2)Draw the influence line for shear D.
Q3)Draw the influence line for moment at D.
Q4)Draw the influence line for moment at C.
Q)5The live load is 100kN/m. Calculate the maximum positive and
moment that could be generated at point D to the uniform live
load
B Hinge 2 m 2 m...
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