Draw free body diagrams and determine all support reactions (magnitude, units, and direction) and force in...
Exercise 6: Draw the free-body diagrams for member ADB and determine the support reactions at A and B. 12' 36 K 6" 12" 65
For the two frames given below Compute the Support Reactions Draw the Free Body Diagrams for all members, and joints with concentrated load or moment Draw the Bending Moment Diagram, Shear Force Diagram, and Axial Force Diagram using the sign conventions and labeling scheme taught in the class Draw the Qualitative Deflected Shape, clearly showing the Inflection Points, if any. 1. (50 points) 45 k Need FBD 3 k/ft 15 ft 2. (50 points) 15 kN/m F G 65 kN...
Determine the reactions for the structure shown below. Clearly
summarize the direction and magnitude of each reaction on a free
body diagram of the structure.
1.5 k/ft 12" 30 kips 100 k-ft 20' 10' 16' al
ee-00dy dlagram 4. 125 points] Draw appropriate free-body diagrams to support your analysis. A distributed load is applied to horizontal member AB. (a) Determine the magnitude of the force at pin A (b) Determine the magnitude of the force at pin B (c), Determine the magnitude of the force at pin C 4 kN/m 1.5 m1.5 m 3 m Ep> 3 m
ATTEMPT ALL QUESTIONS (All solutions must include free body diagrams) 1000 lb SO Question 1 Determine the force in each member of the truss and state if the members are in tension or compression. (Draw the Free Body Diagram (FBD) of the structure and joints for solving internal forces) (35 points) 10 ft ---10 -- --10 ft-------10ft-- 600 lb
Please find all reactions with Moment Distribution Method &
draw shear/moment diagrams. Please show all work. Thank you in
advance!
Problem #2: For the indeterminate beam shown below: a) Determine all reactions using the Moment Distribution Method. b) Draw shear and moment diagrams. El is constant. Show your work. 18 kips 24 kips 6 k/ft 16 k/ft 10ft 12 ft 12ft
Problem #2: For the indeterminate beam shown below: a) Determine all reactions using the Moment Distribution Method. b) Draw...
3. For the frame shown in Fig. 3, (a) (7%) determine the support reactions, (b) (6%) draw the free-body diagrams of member AB and member CBD; (c) (12%) replace the loading on the frame by a single resultant force, and specify where its line of action intersects member CD, measured from end C 150 N 500 N 3 m 3m 2 m 400 N -m 0.35 m 0.35 m 3 m 500 N 35° Fig. 3 Fig. 2 Fig. 1...
Question 3:: Draw the free body diagram and calculate the reactions. Determine the internal normal force, shear force, and moments at points C. Point A is a cantilever support. Type your answers and intermediate calculations on the screen on the blackboard. tokw rrm 6
Given: P=7 lb Determine the horizontal clamping force at E. Draw free body diagrams such that each equilibrium equation relates to a free body diagram. - 6 in. - 6 in. - 4 in. 24 in. ТАННЯМ
1) Cutting a free-body diagram
around point B, find the tensile force in cable AB
2)Using the same free body diagram around point B, find the
compression Force in the boom CB
3)Find the horizontal reaction at point A
4)Find the vertical reaction at point A
5)Find the horizontal reaction at point C
6)Find the vertical reaction at point C
12 ft MC Problem #3 12 45° F = 20 kips 2 F 25 kips 1 7 ft 45°