Force F, 1 kN, is applied in the negative y-direction at point B. The magnitudes of the tension in the cables are T(BC) = 707 N and T(BD) = 1500 N. Point E is 3m from point A.
a) Calculate the vectors representing the tensions in the cables.
b) Determine the internal force and moment system in the bar at x-section E. Show the internal forces and moment on free body diagram.
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Force F, 1 kN, is applied in the negative y-direction at point B. The magnitudes of...
2. Three cables are attached at point B on the boom of a large construction crane as shown in the...
2. Three cables are attached at point B on the boom of a large construction crane as shown in the figure below. The cable forces acting at point B are FBc 50 kN FBD-100 kN and FBA-75 kN. Determine: a) The resultant, R, of the three (3) forces acting at B, b) The moment of R about the point A, c) The moment of R about the line AD d) The perpendicular distance from A to the line of action...
a) In figure 1, the 30 N force P is applied perpendicular to the portion BC...
a) In figure 1, the 30 N force P is applied perpendicular to the portion BC of the bent bar. The support at A is a fixed support. i) Draw a complete free body diagram. (1 Mark). ii) Determine the moment of P about point ii) Determine all the support reaction forces iv) Determine all the support reaction forces B and about point A. (2 Marks) due to the influence of the applied force P. (3 Marks) when a clockwise...
P1=2.9 kN Q1 – 2: The simple truss below has a force equal to P1 applied...
P1=2.9 kN
Q1 – 2: The simple truss below has a force equal to P1 applied as shown. Determine the member forces of the truss at BD, BC, and DE. FBD P1 P1 FBC E FDE D A 30° C B ΟΙΟΙΟ 6 m 6 m P1
Draw a Free Body Diagram of the point representing the weight as a force pulling down,...
Draw a Free Body Diagram of the point representing the weight as a force pulling down, and the two cables AC and BC as tension forces pulling away from the point Develop the trigonometric forces for the x and y components for AC, A, BC, and BCy and list them with a negative sign where appropriate. Assume positive is to the right and positive is up Chose the correct trigonometric break down for these cables ACX - AC cos 45"...
The L-shaped bar in Fig. 1 is applied with the point loads at different points and...
The L-shaped bar in Fig. 1 is applied with the point loads at different points and the single couple moment as shown. Simplify this force system to a single force passing through point A and an equivalent turning moment and clearly state the magnitudes and directions of the resultant force and turning moment. Further, reduce the force and couple system to a single resultant force and calculate the distance at which the line of action of the single resultant force...
B 1.5 m 1.5 m The beam ABC is pin supported at A and link supported...
B 1.5 m 1.5 m The beam ABC is pin supported at A and link supported by rod CD. A load of 6 kN is applied at point E. Determine the internal forces at F, including normal force (NF), shear force (Vr), and bending moment (Mp). Report these values as positive or negative according to the sign convention for beams discussed in class. Draw Complete Free Body Diagrams. Write Complete Equilibrium Equations. ДЕ 3m +1.5 m-+-1.5 m-- 6 kN
Problem #1(10pts) Consider the system shown in the figure consisting of a circular cross section eylinder with center ABC. A counterclockwise torque of 10 kN-m is applied to the cylinder at D Det...
Problem #1(10pts) Consider the system shown in the figure consisting of a circular cross section eylinder with center ABC. A counterclockwise torque of 10 kN-m is applied to the cylinder at D Determine the force (P) applied at point B on the bar to prevent rot cylinder equal to 0.25 m and the coefficient of static friction equal to 0.40 ation of the cylinder. Take the radius of the 0.15 m , Hint: You need to consider free body diagram...
urgent please Question 1 The L-shaped bar in Fig. 1 is applied with the point loads...
urgent please
Question 1 The L-shaped bar in Fig. 1 is applied with the point loads at different points and the single couple moment as shown. Simplify this force system to a single force passing through point A and an equivalent turning moment and clearly state the magnitudes and directions of the resultant force and turning moment. Further, reduce the force and couple system to a single resultant force and calculate the distance at which the line of action of...
Problem 9: The following steel structure is subjected at point A along the y axis, where...
Problem 9: The following steel structure is subjected at point A along the y axis, where there is also a spherical (ball) hinge, which constraints translations along x, y, and z at A, and there is a plane hinge at C. This plane hinge is contained in the x-z plane, which means it constraints translations along the x and z-axes. The force of 500 N at F is also contained in the x-z plane, forming 45° with the x-axis. The...
Homework 1: 10 kN 1 kN/m A B B Distance from point A to B is...
Homework 1: 10 kN 1 kN/m A B B Distance from point A to B is 1m Distance from point B to B' is 1m Distance from point B' to C is 3m Distance from point C to D is 2nm Distance from point D to E is 3m 1) Find support reactions 2) Find internal forces@ B and @ D (analyze the system from right to left)
2. Three cables are attached at point B on the boom of a large construction crane as shown in the figure below. The cable forces acting at point B are FBc 50 kN FBD-100 kN and FBA-75 kN. Determine: a) The resultant, R, of the three (3) forces acting at B, b) The moment of R about the point A, c) The moment of R about the line AD d) The perpendicular distance from A to the line of action...
a) In figure 1, the 30 N force P is applied perpendicular to the portion BC of the bent bar. The support at A is a fixed support. i) Draw a complete free body diagram. (1 Mark). ii) Determine the moment of P about point ii) Determine all the support reaction forces iv) Determine all the support reaction forces B and about point A. (2 Marks) due to the influence of the applied force P. (3 Marks) when a clockwise...
P1=2.9 kN
Q1 – 2: The simple truss below has a force equal to P1 applied as shown. Determine the member forces of the truss at BD, BC, and DE. FBD P1 P1 FBC E FDE D A 30° C B ΟΙΟΙΟ 6 m 6 m P1
Draw a Free Body Diagram of the point representing the weight as a force pulling down, and the two cables AC and BC as tension forces pulling away from the point Develop the trigonometric forces for the x and y components for AC, A, BC, and BCy and list them with a negative sign where appropriate. Assume positive is to the right and positive is up Chose the correct trigonometric break down for these cables ACX - AC cos 45"...
The L-shaped bar in Fig. 1 is applied with the point loads at different points and the single couple moment as shown. Simplify this force system to a single force passing through point A and an equivalent turning moment and clearly state the magnitudes and directions of the resultant force and turning moment. Further, reduce the force and couple system to a single resultant force and calculate the distance at which the line of action of the single resultant force...
B 1.5 m 1.5 m The beam ABC is pin supported at A and link supported by rod CD. A load of 6 kN is applied at point E. Determine the internal forces at F, including normal force (NF), shear force (Vr), and bending moment (Mp). Report these values as positive or negative according to the sign convention for beams discussed in class. Draw Complete Free Body Diagrams. Write Complete Equilibrium Equations. ДЕ 3m +1.5 m-+-1.5 m-- 6 kN
Problem #1(10pts) Consider the system shown in the figure consisting of a circular cross section eylinder with center ABC. A counterclockwise torque of 10 kN-m is applied to the cylinder at D Determine the force (P) applied at point B on the bar to prevent rot cylinder equal to 0.25 m and the coefficient of static friction equal to 0.40 ation of the cylinder. Take the radius of the 0.15 m , Hint: You need to consider free body diagram...
urgent please
Question 1 The L-shaped bar in Fig. 1 is applied with the point loads at different points and the single couple moment as shown. Simplify this force system to a single force passing through point A and an equivalent turning moment and clearly state the magnitudes and directions of the resultant force and turning moment. Further, reduce the force and couple system to a single resultant force and calculate the distance at which the line of action of...
Problem 9: The following steel structure is subjected at point A along the y axis, where there is also a spherical (ball) hinge, which constraints translations along x, y, and z at A, and there is a plane hinge at C. This plane hinge is contained in the x-z plane, which means it constraints translations along the x and z-axes. The force of 500 N at F is also contained in the x-z plane, forming 45° with the x-axis. The...
Homework 1: 10 kN 1 kN/m A B B Distance from point A to B is 1m Distance from point B to B' is 1m Distance from point B' to C is 3m Distance from point C to D is 2nm Distance from point D to E is 3m 1) Find support reactions 2) Find internal forces@ B and @ D (analyze the system from right to left)
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