We use moment equlibrium condition to solve for reaction at A
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So the reaction at A is 314.5N
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Ay For the cable shown, if the force P is 381, calculate the vertical reaction at...
1. The 6-m pole ABC is acted upon by a force Pos shown. The pole is held by a ball-and-socket joint at A and by two cables BD and BE. If the tension in cable BE is 158 N and if a : 3m, determine the reaction at A along the y-axis. 3 m P 3 m 15 1.5 m 2. | The 6-m pole ABC is acted upon by a force P as shown. The pole is held by...
what is the vertical and horizontal reaction force at point B and
the force found on cable AC?
A member (AB) having a uniform distributed weight of 392.4 N/m is supported by a cable (AC) as shown. The member supports a block having a weight of 4905. Find the tension force in the cable and the horizontal and vertical reaction forces at the pin-connection at B. Neglect the weight of the cable. 7m 5m 12m W - 4905N OCO DHI...
8. For the cable shown, calculate the horizontal and vertical reaction components at supports "A" & "B". Determine the tension in each cable segment as well as the sag at location "C" (yc). (10) 8 FT SET SET ** A B Y GET lo 15
The required tension in cable AB is 1200 N. Determine (a) the
vertical force P that must be applied to the pedal, (b) the
corresponding reaction at C.
175 mm, 300 mm 125 mm
Example A strut and cable assembly ABC supports a vertical load P= 1.8 KN. The cable has an effective cross-sectional area of 12000 sq. mm and the strut has an area of 25000 sq.mm. Calculate the normal stress in the cable and strut, and indicate whether they are in tension or compression. Units: m 1.5
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7.5 For the structure loaded as shown below, calculate the tension in cable AB and the reaction forces at pin C for the case where L = 8 ft. (Ans. TAB-6,212.90 lb, Cx 5,840.13 lb, Cy 875.0 lb) 20° 2L 2,500 lb 500 lb 7.6 Calculate the reaction forces at point A and the tension in cable BC for the given structure. (Ans. T-2, 121.32 N, Ax = 1,500 N, A,-3,500 N) 1.5 m B 2,000 N : 2 m...
calculate vertical reaction force at point G for the truss
shown in the figure assume L=5m, F1=11 kn, F2= 28 kn.
TE L(m) с E F 4 m B F F. 4 m G 4 m
Problem '13.29 The force exerted by the motor on the cable is shown in the graph (Figure 1) Part A Determine the velocity of the 185-lb crate when t = 2.5 s. Express your answer to three significant figures and include the appropriate units. GÅ N O a ? v= Value Units Submit Request Answer Provide Feedback Figure < 1 of 1 > F(b) 250 lb
Q = 170 kN F = 80kN
The x component of the reaction at E,Ex (in kN)
The y component of the reaction at E, Ey (in kN)
The y component of the reaction at A, Ay (in kN)
The force in member ED (in kN)
The force in member IB (in kN)
The force in member IH (in kN)
Question 2
W = 115 lb P = 80 lb
The x component of the reaction at H,Hx (in lbs)...