Concept explainers
A transmission tower is held by three guy wires attached to a pin at A and anchored by bolts at B, C, and D. If the tension in wire AC is 590 lb, determine the vertical force P exerted by the tower on the pin at
The vertical force
Answer to Problem 2.112P
The vertical force
Explanation of Solution
Free body diagram at
Here,
The tension in the cable
The sketch of plate supported by three cables is shown in figure2.
Let
Let
Write the equation of vector distance
Here,
Write the vector distance of the cable
Here,
Write the vector distance of the cable
Here,
Write the equation of tension in the cable
Here,
Write the equation of
Write the equation of tension in the cable
Here,
Write the equation of
Write the equation of tension in the cable
Here,
Write the equation of
Write the equation of force exerting at point
Here,
Write the equilibrium condition for the forces at
Here, F is the force
The above equation implies that at equilibrium, total force acting on the cable at
Refer figure 2 and write the equation of equilibrium of forces at
Conclusion:
Substitute
Calculate the magnitude of
Substitute
Calculate the magnitude of
Substitute
Calculate the magnitude of
Substitute
Substitute
Substitute
(VII) to get
Substitute
Substitute
Substitute
Substitute
Since total force is zero. Equate force along each direction as zero.
Substitute
Multiply equation (XV) by
Substitute
Substitute
Therefore, the force
Want to see more full solutions like this?
Chapter 2 Solutions
<LCPO> VECTOR MECH,STAT+DYNAMICS
- The 350-lb homogeneous plate has the shape of an isosceles triangle. The plate is supported by a thrust hinge at A, a slider hinge at B, and the cable CD. Find the force in the cable and the magnitudes of the hinge reactions.arrow_forwardThe cable supports three 400-lb loads as shown. If the maximum allowable tension in the cable is 900 lb, find the smallest possible sag hC at C.arrow_forwardThe pulley-cable system supports the 150-lb weight. The weights of the pulleys and the horizontal bar ABC are negligible. Determine the cable tensions at A and C and the distance x.arrow_forward
- Find the forces in members CD, DH, and HI.arrow_forwardThe bars AB and AC are joined by a pin at A and a horizontal cable. The vertical cable carrying the 100kNis attached to the pin at a. Determine the tension in the horizontal cable. Also, determine the reactions at the hinge and roller. Neglect the weights of the bars. a. Determine the tensile force (kN) on the cable.b. Determine the vertical reaction (kN) of the hinge. Indicate its direction, use positive value if it is upward and negative if it’s downward.c. Determine the horizontal reaction (kN) of the hinge. Indicate its direction, use positive value if it’s to the right and negative if it’s to the left.d. Determine the vertical reaction (kN) of the roller support. Indicate its direction, use positivevalue if it is upward and negative if it’s downward. Plsss show complete handwritten solution. Thanksss!!arrow_forwardА. What is TA (Ib)? What is Tg (lb)? С. What is Tc (lb)? B.arrow_forward
- The compound bar is supported by a thrust bearing at A, a slider (journal) bearing at B, and the cable CD. Determine the tension in the cable and the magnitude of the bearing reaction at A. Neglect the weight of the bar. With complete fbd. Please compute using equations for moment (simul equation in calculator) and show the stepsarrow_forwardBoom OAB is supported by a ball and socket at point O and two cables AC and AD. Determine the forces supported by the two cables and the support reactions at O if P = 520 kN. 3m C 5m 3m 9m 5m i 6m B. 4m 12m 6m 5marrow_forwardThe bent bar as shown below is supported by a cable AE, a ball-and-socke joint at O, and a journal (slider) bearing at D. At the journal bearing D, the mome support reactions and the force support reaction along y-axis are zero. The 2-kip force and the 6 kip-ft couple-moment are parallel to z-axis and applied at point E Determine the tension in the cable AE and the support reactions at O and D. X 4 ft MEST Z 6 kip-ft 2 ft B 2ft 2 kips 3 ft De [ 1 kip = 1000 lb. 1. E 1 1 14 ft it Tarrow_forward
- For the shown frame structure, the uniform beam AB weighs 480 lb and the uniform column CF weighs 1,580 lb. If the dimensions a = 2.5 ft, b = 6.5 ft, and c = 4.5 ft, determine the tension force in cable CG.arrow_forwardCompute all the forces acting on member BC., At B, At C 3m 60° B 2000 N -2m- -2m-arrow_forwardThe bent bar as shown below is supported by a cable AE, a ball-and-socke joint at O, and a journal (slider) bearing at D. At the journal bearing D, the mome support reactions and the force support reaction along y-axis are zero. The 2-kip force and the 6 kip-ft couple-moment are parallel to z-axis and applied at point B Determine the tension in the cable AE and the support reactions at O and D. A 4 ft X MEST Z 6 kip-ft 2 ft B 2ft 2 kips 3 ft [ 1 kip = Lo = 1000 lb. 1 E 14 ft yarrow_forward
- International Edition---engineering Mechanics: St...Mechanical EngineeringISBN:9781305501607Author:Andrew Pytel And Jaan KiusalaasPublisher:CENGAGE L