5. The cable supports the three loads shown. Determine the magnitude of P1 if P2 = 600 N and yɛ = 3 m. Also find sag yp E 1 m YD Ув 4 m В D P2 P2 - 3 m 6 m - 3 m 6 m
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- The force in the rope if F= 500 N. The dimensions of the beam are: AC = 2 m, AD= 3 m, DB= 2.5 m, h= 1 m and r= 0.3 m. F Ac PENDIDIK C AD DB Which side is the easiest to use to solve for the internal forces at C. O Left side, less forces. O Right side, less forces. Either sides have the same number of forces. BНОМE WORK 3 Determine the resultant force at A. for the figure below Hint : 1- Find the position of all points A,B.C (x, y., z) 2. Find Fas und FAC 3. Find Tanl and Iracl 4. Find FAg = F UA and Fac = F UAC 5- Finally find R and a, B.y 3m Fc= 500N FB= 500N 3m 5m 3m B 2m 4m 5mF1 = 250 lb F2 = 300 lb x = 2.75 ft y = 3.25 B X F₁ X F₂ Find the Vertical Support Reaction at C (in lb). Input the magnitude only (don't include a negative sign). The tolerance for the answer is +/- 0.1.
- Find the magnitude and direction of the resultant force for the system of forces shown in the figure. Where F1 =10 N, F2 =35N, F3 =30 N, F4 =10N, F5 %3D = 70N & F6 =70N. The angles 0, =25°, 03 =20° , 04 = 50°, 06 = 30 ° (Enter only the values in the boxes by referring the units given in bracket. Also upload the hand written copy in the link provided) F2 F3 F1 F6 F4 F5Determine the magnitude of the vertical support reaction at Point A. Enter your number to TWO decimal places, If an integer, just enter the integer number. Remember, the appropriate unit! (If applicable, use a "-" to indicate multiply in the unit.) A - 6m- 0.5 kN/m -3 m- 3 kN 5 kN•mA cargo ship is tied down to marine boll arts at a number of points along its length while its cargo is unloaded by a container handling crane. Each bollard is fastened to the wharf using anchor bolts. Three cables having known tension force magnitudes F, = ll0 kN.F, = 85kN.and F, 9OkNare secured to one bollard at a point A with coordinates (0.0.45 m. 0) in the x-r-: coordinate system shown in the figure part b. Each cable force is directed at an attachment point on the ship. Force F, is directed from point A to a point on the ship having coordinates (3 m, 9 m. 0) force F, is directed at a point with coordinates (6.5 m. 8.5 m. 2 m) and force F, is directed at a point with coordinates (8 m. 9 m. S m). The diameter of each anchor bolts is 4 24 mm. (a) Find the reaction forces and reaction moments at the base of the bollard. (b) Calculate the average shear stress in the anchor bolts (in the x-: plane). Assume each bolt cart ics an equal share of the total force.
- Help Save & Exit Check Required information A rope connecting points A and B supports the force Fshown in the figure. Write expressions using Cartesian vector representation for the following. Take L= 8 ft and F= 12 lb. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. B 30° F T AB : the position vector from A to B. TAB of 17 Next > < Prev 6. 9. 41F1-100 2m F2-250 A 4m F3-200 2,5m Find the forces acting on supports A and B in the figure. F4-150 3m BIn the figure, cables AD, AB and AC are needed to support the 60lb box. Determine the coordinates of points B and D respectively a) B(-18,4,3) e D(-4,-2,4). b) B(-4,-4,4) e D(-4,6,6). c) B(18,0,0) e D(0,-4,6). d) B(6,12,2) e D(4,-44,4). e) B(6,6,4) e D(4,6,8)
- 4:48 68 O E B18 Statics_Moment.. o 240 N 2. A prybar is used to remove a nail as 15° shown. Determine 350 mm the moment of the 240 N force about the point o of 65° contact between the prybar and the small support block. 30 mm PROBLEMS 240cos10=236.35 N Mo=? 240 N 15° 65 240sin 10=41.68 N 350 mm M=236.35(0.35) +41.68(0.03)=83.97 N -m 65 (clockwise direction) 30 mm PROBLEMS 900 mm 700 mm 3. An experimental device imparts a force of magnitude F = 225 N to the front edge of the rim at A to simulate the F 300 mm effect of a slam dunk. Determine the moments of the force F about point O and about point B. Finally, locate, 3050 mmThe offset slider-crank mechanism 50 mm, R3 = Ro 20 mm, R₂ = Write the loop closure equation. Solve for the position of the slider 4 as a function of 0₂. = O 2 is driven by the rotating crank 2. 140 mm B 3 4 OC XQ5) The leg is held in position by the quadriceps AB, waich is attached to the pelvis at A. If the force exerted on this muscle by the pelvis is given as F= 85 N, in the direction shown in Tigure 5, where 0j and 0, are 55", 45* respectively. Determine the stabilizing force component acting along the positive y-axis and the supporting force component acting along the negative x-axis. 02 B Figure 5