Graph the following the statics problem using EXCEL. *4-12. The towline exerts a force of P...
#3-16, If the man at B exerts a force of P 30 lb on the rope, determine the magnitude of the force F the man at C must exert to prevent the pole from rotating, i.e., so the resultant moment about A of both forces is zero. of nt 6 ft 45° 12 ft Probs. 3-15/16
I only need problem 4-97 please. Specifically point O.
4.7 PROBLEMS 4-97. Replace the force and couple system by an equivalent force and couple moment at point 0. 4-98. Replace the force and couple system by an equivalent force and couple moment at point P. -3 m 8 kN.m o px -3 m 6 kN 4 kN 4 m 5 m 13/12 60° 5 -4 m Probs. 4-97/98
(Adpated from Problem 7-32 from Hibbeler - Statics and Mechanics of Materials) For the beam shown above where P 650 kN, a 4 m, and b 8 m; Calculate the magnitude of the shear force at the point 2 m from the left support. Calculate the magnitude of the shear force at the point 4 m from the right support. Calculate the magnitude of the bending moment at the point where the force P is applied kNm
(Adpated from Problem...
750 N 1) What is the angle between r, and the 750 N force that you would use if you were to calculate the moment that the force creates about point C? (You do not need to actually calculate the moment.) 200 mm - 100 mm 2) Bar AB is inclined at 50 from the vertical. A 100-N force is applied to the bar at end B. Determine the magnitude and direction of the moment this force creates at a...
Need help .Need correct answer
P-4 KN 1.3 m 20m long winch with tow rope in the figure a force of P = 4kN at the end of the arm It applied. If x = 25m, this force's O crane to create maximum torque at point Determine the angle of the arm 0. The moment created what is its value?
ENGR 420 Statics Problem 3. (10 points) Determine the magnitude of the moment of the force about z axis. F-1304-20+5ORN Problem 4. (10 points) The ends of the triangular plate are subjected to three couples. Determine the magnitude of the force F so that the resultant couple moment is 500 N.m clockwise
Question 3. A uniform load of
intensity 12 kN/m and a concentrated load of magnitude 2.4 kN are
supported by a beam ABC with overhang at one end (see Figure 3).
Draw the shear-force and bending-moment diagrams for this beam.
Also, determine the position of maximum moment with respect to
point A.
12 kN/m 2.4 kN A С B -1.6 m -1.6 m -1.6 m
Question 3. A uniform load of intensity 12 kN/m and a concentrated load of magnitude 2.4 kN are supported by a beam ABC with overhang at one end (see Figure 3). Draw the shear-force and bending-moment diagrams for this beam. Also, determine the position of maximum moment with respect to point A. (20 marks) 12 kN/m 2.4 kN A C B -1.6 m -1.6 m -1.6 m I Figure 3
Question 3. A uniform load of intensity 12 kN/m and a concentrated load of magnitude 2.4 kN are supported by a beam ABC with overhang at one end (see Figure 3). Draw the shear- force and bending-moment diagrams for this beam. Also, determine the position of maximum moment with respect to point A. (20 marks) 12 kN/m 2.4 kN А C B -1.6 m 1.6 m *1.6 m Figure 3
Question 3. A uniform load of intensity 12 kN/m and a concentrated load of magnitude 2.4 kN are supported by a beam ABC with overhang at one end (see Figure 3). Draw the shear- force and bending-moment diagrams for this beam. Also, determine the position of maximum moment with respect to point A. (20 marks) 12 kN/m 2.4 kN A С B ΟΙΟΙΟ -1.6 m 1.6 m - 1.6 m Figure 30