Find the reaction in pin A?
Q: Draw the F.B.D. for the beam shown in fig * ? and then find the reactions at A and C y 900 lb 400 lb…
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Q: 5. Determine external reactions at D and E and all pin forces at A, B and C. Note: Ignore point J in…
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Q: Compute for the external reactions for all members of the frame shown. Please solve the following:…
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Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A * ?
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Q: A man raises a 10-kg joist with a length of 4 m by pulling on a rope.Find the tension T in the rope…
A: Given Data: The mass of the joist is M = 10 kg. The length of the joist is L = 4 m. The tension in…
Q: Q11 Find the reactions in supports
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Q: Find the Vertical and Horizontal Support Reaction at A
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Q: For the following calculate the reactions at A and B. 2 kN-m 6 kN-m A 60° 2 m
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Q: Q7: for the figure shown below, calculate the reactions at the point O
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Q: Find the reactions at the fixed connection at A. 4 N/m A 2m 4m
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Q: A cylinder with a radius of 1.5 m and a weight of 40 kN is held by the rod AD. Find the force at CD…
A: The free-body diagram of the cylinder Applying equilibrium conditions: ∑Fy=0REcos300-40=0RE=46.188…
Q: 2kN/m D 4kN 4m 4m C 4m 4m 3m
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Q: 6 - The 6-ft-diameter cylinder in Fig. weighs 5000 Ib and is 5 ft long. Determine the reactions at A…
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Q: Problem 4a: Find the reactions at A and C. 40 lb 60 lb 80 lb 4 in. 4 in. 4 in.
A: giventruss as shown below
Q: Find the pin reactions at joints a and b both are pin joints
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Q: Please solve for the reactions at A
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Q: Solve for all reactions at A and B
A: The free-body diagram of the given truss system can be drawn as below, Here, RB is the normal…
Q: determine horizontal and vertical reaction for the figure as shown
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Q: Problem 2. BOLVE FOR RA AND RB USING THE SUM OF MOMENTS METHOD (SOLVE FOR ALL REACTIONS) 5K per foot
A: Concept: The pin or hinge joint supports only two reactions forces which are vertical and horizontal…
Q: Calculate the reaction on the A and calculate the reaction on the B
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Q: Q3: Find the reactions for the following
A: Note:As per our guidelines we are supposed to answer only one question. Kindly repost other…
Q: Solve for the reactions at A.
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Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A *? and B
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Q: Find out the reactions at supports.
A: The Given figure contains Uniform distributed load as well as Uniform varying load; Hence the…
Q: Which of the following gives the reaction at B of the simply supported beam in Newton?
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Q: Find the support reaction below. Ax,Ay,By
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Q: Find the reaction forces at A.
A: Consider the free body diagram of the beam as shown below.
Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A and B
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Q: Find the reaction at B Weight of the beam is 43 kg include this too. Please solve
A: Given Datam=43kgW=43×9.81=0.422kN
Q: A and vertical pin reaction at D are respectively. Note: the reaction force at A E. and E have only…
A: Take equilibrium conditions (moment at any hinge is zero, summation of vertical force is zero) for…
Q: In the mechanism shown, find the force P and all reaction forces. Ignore weight forces and friction
A: Considering that the mechanism is in equilibrium with the action of the applied torque and external…
Q: Find the Reactions at point A where the tensile force in cable CB is 300 KN, 35 Neglect weight of…
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Q: Find the reactions and force in Pin C. A 10' क 5k 5' C 5' 8k 10' 6' B
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Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A and B ? If Wo= 1500 Ib/ft…
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Q: Q4 Find the reactions in supports 50 KN 20 kNm B D A 3 m 1.5 m
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Q: reactions and moment at A
A: Given data Point load and uvl load is given Required Reaction force Moment at point A
Q: in the figure shown weighs 420N an Lion in the cable and the reactions at t 420N G cable
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Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A * and B ? If w= 2500…
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Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A * and B ? If wo= 1500…
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Q: 5. Calculate the reaction at point A and B. 3000 lb 2 ft 10 ft 100 lb/ft
A: Draw the free-body diagram of the beam.
Q: necting W and point B passes over a frictionless pulleys. Fin Dlat noint A
A: given:
Q: FIND THE PIN REACTION FORCES AT C
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Q: Three smooth cylinders, each weighing 500 N, is placed inside a smooth box as shown in the figure.…
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Q: Determine the reactions at Aand C.
A: Draw a free-body diagram of the pulley. Calculate horizontal reaction at B, Fx-200…
Q: Draw the F.B.D. for the beam shown in fig and then find the reactions at A * and B 20 kN 40 kN/m B…
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Q: Determine the reactions at A and B for the loaded beamas shown in Figure
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Q: Find the support reactions at points A and B.
A: given:
Q: fig and then find the reactions at A and B *? If wo=45 kN/m and L-9 m
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- M y A 2L - 30% В Calculate the support reaction at the roller at A to the nearest whole number. Use up and to the right as positive, down and to the left if negative. M = 63 KN-m P = 143 KN x = 2 y = 7 L = 5 mCompute the reactions at K and L (1 kip= 1000lb). Answer must be in kipsOK EFyz0 Example The figure shows two rollurs and in equilibrium. Find the valus of the reachion foras Ra and Ry of the rollers on the beam. The beam is weightluss. laterally loaded beam which is supported by a 400N 800N 200N 10ON 800 min So 000 m Solution 200 mm 300 mm 800N EFy z0 400N 200N joON 0-3 2.7 Ra tR - 200 - 400+ 100 -800 =0 Ra Rat Ry s 1300 Ra 1300- Rb ZMa z0 -(200x 0.6) + (400 0-2) - (100* 0.7) -(R 1) + (800 * ) = 0 - 120 + 80 -70 - R + 1360 -0 RE. 1360 t80 -120-10 1250 N * Ra : 13o0 - 1250 = 50 N. HW Repeat the Salution by taking the moment a boud O O General two dimen sional_fora system Fx=0, ZFyNOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Consider the given figure with P-230 N and a=30 mm. 60 mm A 40 mm B 100 mm 60 mm The reaction at B- 515.72 N & 56.3 The reaction at C-333.63 N 30.96 D Determine the reactions at Band Cusing a force triangle when a = 30 mm.Figure 2: Given the figure determine the reaction at C horizontal (Answer in whole number, indicate the answer in kN. just input the value, do this for all the questions on Figure 2)This is a challenging one! 10 kN 9kN 10 kN-m 1.5 m 1.5 m 1.5 m 15 m 15 m ' 1.5 m Compute the support reactions at A, C and E? [MA= 21.5kNm, A, = 2.67kN, C, = 16.67KN, E, = 5kN] %3D %3D Hint: Isolate DE, then move to BD and so on. lypQ3a) Determine the reaction moments at the supports by using Moment-Distribution Method. Assume A and C are fixed, and B is a pin joint. E-200 GPa and 1-50x10" mm. 1000 N/m 4EI EI A B C 1 m 1 m 1 m 1 m PLEASE SEE TABLE Q3a NEXT PAGE FOR THIS PROBLEM!339 What are, the reactions at the supports for the truss loaded as shown in the figure when 4000 lb ? %3D 10'. 10' 40001b 30 40 polb. D : 4000lb BY 30° 26'-8"A counterbalanced arm used in a packaging machine is shown below. The weight of the arm is 5 lbs, again concentrated at G. The applied load in operation P is 2 lbs. Find first the reaction Ez normal to the xy plane. Then find the reactive forces at the pivot B in X, Y and Z and any reactive moments at B. FBDS are essential. A B 3 in. 7 in. 1 in. 0.5 in. G 0.5 in. E,Take P= 38 kN. EI is constant. (Figure 1) Figure -2 m P ▾ Part A ▼ Determine the y-component of the reaction at the roller B Express your answer to three significant figures and include the appropriate units. By= Submit Part B HA A₂ = Value Request Answer Determine the z-component of the reaction at the fixed support A Express your answer to three significant figures and include the appropriate units. μA Units Value ? Units ?In Figure 2 shown, shaft A, made of AISI 1010 hot-rolled steel, is welded to a fixed support and is subjected to loading by equal and opposite forces F via shaft B. A theoretical stress concentration Kt of 1.6 is induced by the 3-mm fillet. The length of shaft A from the fixed support to the connection at shaft B is 1 m. The load F cycles from 0.5 to 3. a) For shaft A, find the factor of safety for infinite life using the modified Goodman fatigue failure criterion. b) Repeat part (a) using the Gerber fatigue failure criterion.K/s docs.google.com/forms 10 Q1 Find tension in AC and W ? 60 30 10 lbs A W = 18.95 Sb,. TAC = 21.91 b W = 18 b,, TAC = 20.1 b, O w = 20 by. TAC = 17.32 Subs Find the reaction in pin A ?SEE MORE QUESTIONS