Determine the tension in the cable bc. Show transcribed image text.
Determine the tension in the cable bc. 74N at an angle of 36.
Determine the tension in the cable bc 76 Determine the tension in the cable BC. Question: Determine the force P needed to hold the cable in the position shown, i. If the load at D is 300 lb, determine the x, y, and z components of the reaction at A and the tension in cable BC. 52 . b) Determine the tension in the cables BC, BA, and BD if the resultant compressive force in the pole OB is 3500 N. Question: A sign is hung by two chains from mast AB. a) Draw the FBD (include all required information). B) Determine the components of reaction force; The member is supported by a pin at A and cable BC. Suppose that F = 650 N. Hint: Analyze the forces on a Determine the tension P in the cable which will give the 136-lb block a steady acceleration of 5. b) Write the force vectors. 20 Mg and a center of mass at G, whereas the secondary boom BC has a mass of 0. Thanks so much for your help!!!(: Question: Knowing that the tension in cable BC is 805 N, determine the resultant of the three forces exerted at Point B of beam AB. 36, determine (a) the required tension in cable BC if the resultant of the three forces exerted at point B is to be vertical, (b) the corresponding magnitude of the resultant. Take length AB as 2m and length AC as 8m. Knowing that the tension in cable BC is 725 N, determine the resultant of the three forcesexerted at point B of beam AB. Assume that all surface are smooth. (Round the final answer to the nearest whole number. Determine the tension in the cable connected to A, connected to B, and connected to C. Use vector math! a) Draw the FBD on the provided grid, along with the expected reactions. The homogeneous bar AB weighs 400 N. Refer Fig. Determine the tension in cable CD. The previous answer to this question on chegg was blurry/unclear, thanks There are 2 steps to solve this one. If F= {20i-40j-75k} Ib, determine the x, y, and z components of the reaction at A and the tension in cable BC. determine the tension (a) in cable AC, (b) in cable BC. 48 Knowing that a= 20°, determine the tension (a) in cable AC, (b) in rope BC. Previous question Next question. Question: Determine the tension developed in cable BC used to support the steel frame when FA=47kN and P=48kN⋅m. This is a popular solution! SEE SOLUTION Check out a sample Q&A here. Determine the tension in cable AC. (Note: possible reactions at A are Ay, Ax, Mx, My, and Mz) †866 RC 4 ft Determine the components of reaction at the ball-and-socket joint A and the tension in the supporting cables BC and BD. Question 3. SOLUTION Free-Body Diagram: W = (20 kg)(9 m/s ) 2 =196 N Question: Two cables are tied together at C and are loaded as shown. This AI-generated tip is based on Chegg's full solution. Knowing that the tension in rope AB is 3750 N. 80 in. 1 m 2. The position point of B is (0, 0, 0) The position point of A is (6, − 7, 12) The position point of C is (6, − 7, − 16) View the full answer. 36 Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. 1 om Transcribed Image Text: Q) Determine the tension in cables BA and BC necessary to support the 60 kg cylinder as shown in figure helow. Please use force componets/ scalars thank you . Centroid 3. a. A) Determine the tension in the cable BC. (15 points) 6 12 8- Chapter 9: The cantilever beam BC is attached to the steel cable AB as shown. Transcribed Image Text: Determine the tension in cable BC. This question has been solved! Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts. Figure Q1/Rajah S1 Example 2 Determine the tension of the cable at points A, B, C Assume the girder weight is 850 lb/ft Structural Analysis IDr. 78 The member is supported by a pin at A and cable BC as shown in (Figure 1). 6 16 Chapter 4 Problems problem for the beam and loading shown, determine the reaction at the tension in cable bc. B C 396 lb Two cables are tied together at C and are loaded as shown. 1) Determine the reaction at A. (20 points) Hint: draw the free body diagram for point C and write the equilibrium equation along x and y separately Knowing that α=20∘, determine the tension (a) in cable AC, (b) in rope BC by using the analytical method. Show transcribed image text There are 2 steps to solve this one. The mass of the bar is 50 kg. Determine the tension in the cable. a) Determine the most likely location of failure and state some reasons as to why and how it is likely to fail at the location. The uniform bar AB of mass m = 2 kg and length L = 2 meters is suspended by two cables. solution diagram: reaction at sfx ax smb (15 lb)(Skip to document. e. (Round the final answer to Knowing that α=20∘, determine the tension (a) in cable AC, (b) in rope BC by using the analytical method. Point A is above and to the left of point C. Two cables are tied together at C and loaded as shown in the figure below. Round off only on the final answer expressed in 3 decimal places . Resultant force R ≈ 1573. Determine the total reaction at A. 6 16 The tension force in cable BC is 2,100 lbs. Question: Homework. 5 Trp = 60 (9. Question: Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B. 21 Three cables are joined at the junction C as shown in fig. Its angle with horizontal is θ. Mohammed Arafa Problem ٣: The beams AB and BC are supported by the cable that has a The cable BC passes over a frictionless pulley as shown. 5, a = 8. Member AB is supported by cable BC and at A by a square rod which fits loosely through the square hole in the collar fixed to the member as shown. For the beam in Problem 2. 81 = 588. 56 Cables BA and BC are connected to boom DB at concurrent point B. (B) Determine the components of the reaction force at the support ''A'' using s; The member is supported by a Pin at A and Cable BC. 2. The member is supported by a pin at A and a cable BC. Sign up to see more! Determine the tension in cables AB, BC, and CD, necessary to support the 12-kg and 14-kg traffic lights at B and C, respectively. Determine the height h of the pole DE. Here’s the best way to solve it. 48 Knowing that a = 20°, determine the tension (a) in cable AC, (b) in rope BC. How to find the resul Question: PROBLEM 2 Knowing that α=55∘ and that boom AC exerts on pin C a force directed along line AC, determine (a) the magnitude of that force, (b) the tension in cable BC. The weight of the post in 18 lb. 81) \mathrm{N}, Fig. Determine the tension in cable AB in order to support the 200 kg crate in the equilibrium position shown. ) The free-body diagram needed to determine the tension In cable AC and rope BC is. The tension in cable AC and BC if P=360 N ANS: TAC=312 N,TBC=144 N b. Determine the tension in Problem 5. The tension force in cable BC is 2,100 lbs. The spring has a spring constant of 15 lbs/in and an original length of 12 inches. Here’s how to approach this question. Draw the free-body diagram needed to determine the tension in AC and BC and find the tension: a) in cable AC, and b) cable BC. Draw proper free body diagrams. Given data:. 5 m and Question: 5-4. Unlock Determine the tension in cable BC. PLSSS I NEED Determine the reaction at each of the two (a) rear wheels A, (b) front wheels B tension in cable BC. Due to equilibrium, the weight of the cylinder causes the tension in cable B D to be T_{B D}=60(9. 36 . Question: Q. Two cables are tied together at C and are loaded as shown. Take x = 5 and y = 4 m. The tension in cable AC and the applied load P if the tension in cable BC is 300 N ANS: TAC=167 N,P=193 N. Question: Knowing that the tension in cable BC is 750 N, determine the resultant of the three forces exerted at Point B of beam AB. Question: Knowing that α=20∘, determine the tension (a) in cable AC, (b) in rope BC by using the analytical method. Determine the tension in the cable BD and the horizontal and vertical components of reaction at the pin A. T=? i+? j+ ?k Get the book here: https://amzn. forces -840 mm с L= 1160 mm 800 mm B 54 13 3 780 N 500N . (Note: possible reactions at Determine the forces in cables BA and BC for the position shown. 6 16 A B B) 1132. (Round the Determine the tension in the cable and the reaction at support C. 5 m and the cylinder has a mass of 40 kg. 3 16 E) 1324. Use E = 200 GPa. 4-12 b. 0 . Suppose that r= 2. Suppose that r = 3. Answer. (Figure 1) PartA Determine the tension in cable AB Express your answer to three significant figures and include the appropriate units. 130 Knowing that a = 55° and that boom AC exerts on pin C a force directed along line AC, determine (a) the magnitude of that force, (b) the tension in cable BC. There are 2 steps to solve this one. The single elastic cord ABC is used to support the 40-lb load. 81) N B 60 (9. Question: Knowing that the tension in cable BC is 745 N, determine the resultant of the three forces exerted at Point B of beam AB. -840 mm с L = 1160 mm 800 mm B А nt 13 944 3 ences 12 780 N 500 N The magnitude of the resultant of the three Determine the tension in cables BA and BC necessary to support the 60-kg cylinder in Fig. Probs. Also, find the angle theta. P2. 5-5. Hints: 1) Assume: frictionless pulley; light cables Question: Determine the tension in the cable AB that holds a post BC from sliding. Points B and C will be analyzed, establishing equations of equilibrium, from which the sag of point B and tensions in the cable segments will be determined. There are 2 steps to solve this one Question: 4. 4 16 2000 16 D) 984. Show transcribed image text There are 3 steps to solve this one. 5-4/5 1 m 4 m 1 m 8 Answer to Knowing that the tension in cable BC is 780 N, Science; Advanced Physics; Advanced Physics questions and answers; Knowing that the tension in cable BC is 780 N, determine the resultant of the three forces exerted at Point Free-Body Diagram. Determine the angles theta_x, theta_y, and theta_z which the line of action of T forms with the positive x-, y-, and 2-axes. 100 % (2 ratings) Here’s how to approach this question. Determine the normal reaction at B. 8, Q = 242. The magnitude of the resultant of the three forces is The direction of the resultant of the three forces is ∀ N. b) Draw a free body diagram (FBD) and determine the magnitude of the torque (lbf-ft) and Answer to Knowing that the tension in cable BC is 780 N, Science; Advanced Physics; Advanced Physics questions and answers; Knowing that the tension in cable BC is 780 N, determine the resultant of the three forces exerted at Point B of beam AB. A= (Last digit of your class ID/100) m ZZ (0. If F = {20i - 40j - 75k} lb, Determine the x, y, z components of reaction at A and the tension in the cable BC. 5 At a given instant, the tension in cable AB is 4600 lb and the tension in cable BC is 2000 lb. : T BA = 15 kN; T BC = 6 kN) A homogeneous 6-m bar AB is supported in the vertical plane by rollers at A and B and by a cable at C. 90 m, determine the moment about D of the force exerted by the cable at C resolving the force into horizontal and vertical components applied at point C and at point E. Figure < 1 of 1 > Z 0. Then determine the tension in the cable BC and the forces in the pin at A required to support the 500-lb load. Your solution’s ready to go! Our expert help has broken down your problem into an Question 3. Express your answer to The loading for a beam is as shown in the figure where F 1 = 15 lb, F 2 = 25 lb, F 3 = 35 lb, F 4 = 20 lb, and F 5 = 15 lb. Using Principle of Virtual Work, determine the force P which will keep the weightless bar AB in equilibrium. Determine the Vector mechanics for engineers by Beer and Johnston solution Knowing that a 5 208, determine the tension (a) in cable AC,(b) in rope BC. Situation 4: Knowing that the tension in cable BC is 725N, determine the resultant of the three forces exerted at point B of beam AB. Set P -3kN 5-5. 48: Text Alternative (Chapter 2) Point C is above and to the left of point B. 22° А, 1350 ; Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. The tension in. Also, find the angle θ. 5 ft D 40° Fig. b) Determine the tension in cable BC if the rod at A was replaced with a round rod and Knowing that α=20∘, determine the tension (a) in cable AC, (b) in rope BC by using the analytical method. A = 166. The boom supports a drum having a weight of 180 lb at F. A: Ta 00 1200 lb B Fig. Unlock. TOPIC: ENGINEERING Book: http://amzn. Determine the tension in each cable and the components of Question: 4. d) Determine the height h of the pole DE. 3. The mast is hinged at A and is supported by cable BC. 74N at an angle of 36. Determine the reactions for each type of support shown. 1 Consider the boom below. A . (Ans. 6 Mg and a center of mass at 62. 67 N, T_BC = 500 N) Show transcribed image text. Question: Determine the tension in cables AC and BC, and reaction at the ball and socket joint at O if the system is in equilibrium state. Suppose that F = 11 kN. b. patreon. 840 mm L=1160 mm 800 mm 13 12 780 N 500 N The magnitude of the resultant of the three forces is The Question: Knowing that the tension in cable BC is 730 N, determine the resultant of the three forces exerted at Point B of beam AB The magnitude of the resultant of the three forces is The direction of the resultant of the three forces is 7. 60 KN B 30 kNm AT 3 m . BUY. Determine the tension in cable BE and the reactions at A and D. Show transcribed image text. 2 m 4000 N 4000 N 4000 N с А C/ Determine the tension in cables BA and BC necessary to support the 60-kg cylinder in Figure. 800" Question: *5-4. 5 m and the cylinder Question: Determine the tension in the supporting cables BC and BD and the components of reaction at the ball-and-socket joint A of the boom. 5 m and the cylinder has a mass of 20 kg. , so segment BC remains horizontal. Free-Body Diagram: (a) Reaction at A SF A x = =0: 0 x + SM B = + + + 0 75 700 100 550 175 350 100 150: ( )( ) ( )( ) ( )( ) ( )(N mm N mm N mm N mm mm) ( )-A y 150 0= A y = +1225 N A =1225 N≠ (b) Tension in BC + SM A = + +-0 75 550 100 400 175 200 75 150 The smooth uniform rod AB is supported by a balland-socket joint at A, the wall at B, and cable BC. (Correct to the nearest tenth. The cable supports the loading shown Determine the distance y and the tension in cable BC. Express your answer to three significant figures and include the appropriate units. PLSSS I NEED ANSWERS ASAP. Determine the tension in cable BC. Center of gravity 2. 87 ON The direction of the resultant of the three forces is 2 500 < Prey 6 of 16 ! Question: 2. full answer. 036 - Resultant force Knowing that the tension in cable BC is 755 N, determine the resultart of the three forces exerted at Point of beam AB -840 mm L = 1160 mm 800 mm B 14 12 TNIN BOON The magnitude of the resultant of the three forces is 126. Determine the distance x and the tension in cable BC. comBecome my official student: http://www. Firstly the entire assembly will be considered to determine the tension in the cable BD and the external reactions in point A. a) Determine the tension in cable BC. 36 Determine the tension in cables AB, BC, and CD, necessary to support the 12-kg and 15-kg traffic lights at B and C respectively. I have a problem from Merriam Engineering book. Problem 3. Knowing that the cable is initially taut, determine the tension in the cable caused by the distributed load shown. Also, find the angle θ (Figure 1) Part A Determine the tension in cable AB Express your answer to Draw the free-body diagram needed to determine the tension In cable AC and rope BC. The rod is being pulled Point D by a cable (parallel with x-axis) attached at with a pulley and weighted at the other end. Please explain your work. 58 Determine the weight W required to produce a tensile force of 1,560# in cable AB. Determine the tension in the cable so that the reaction force at A produces a 366 N-m moment about the point P. University; High School. Determine the range of values of P for which both cables remain taut. 4) Show transcribed image text. Solution . 5 m B Part A Determine the tension in the cable BC Express your answer to three significant figures and include the appropriate units. There are 2 steps to solve this one Answer to Determine the tension in cable BC. (Ch 2. knowing taht the tension in cable BC is 1040N, length d is 1. 39 + (Last digit of your class ID/100)) m (20 POINTS) The 12-ft boom AB has a fixed end A. (Round the final answer to two decimal places. All length in Figure Q1 is in metre (m). The crane lifts the 400-kg load L. Determine the wall reaction at B. 130 . Determine the tension in cable BC. The m In summary, the problem is to determine the tension in cable BC and the reactions at A for a 400N weight acting at the midpoint of member AB, which has a length of 3m. 1, R = 367. If the unstretched length of the spring AB was 3. Determine the total reaction at A . Parallel-axis theorem Determine the tension in cables BA and BC necessary to support the 60-kg cylinder in Fig. and the Question: Determine the tension in cable CD. Determine the tension in each cable and the components of reaction at D needed to support the load. 1. The equations that may be used are the sum of all forces equaling 0 and simple force equations, and the concept of moment may also need to be considered. a) Determine the tension in the cable BC. Transcribed image text: The pipe assembly supports the vertical loads shown. Define the following terms (5⋆4 points): 1. There’s just one step to solve this. A 1200 pound weight is attached at point C. Consider all surfaces to be smooth. Spring AC and cable BC are connected to a pulley at C. Reported signs must agree wit; Resultant, R of the three forces F1, F2 and F3 acts along 45 degree to the y-axis to the beside figure. Its free-body diagram is shown in Fig. , TBC Solution: Tecsin45 TRAsing 45 X. Solution. The tension in the supporting cable BC is 580 lb. 62 PROBLEM 2. 36, determine a) the required tension in cable BC if the resultant of the three forces exerted at point B must be vertical, b) the corresponding magnitude of the resultant; Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. Cable AC forms an angle of 5 degrees to the right of vertical. Start learning . Tensions in For the beam and loading shown, determine (a) the reaction at A, (b) the tension in cable BC. (Round the final answer to three decimal places) Two cables are tied together at C and are loaded as shown. Suppose that F1 = 250 N , Determine the tension in the cable. Structural Question: Problem 1. Determine the tension in cables AB, BC and DE, and the angle . (Use force triangle or rectangular components to sol Question: 4: For the system shown below, calculate the tension in cable BC and the reactions at A to support an 800 lb weight St . com/daxterbelsDeter Question: 5-71. 3 ft/sec2 up the incline. forthesakeofeducation. If you are a student using this Manual, you are using it without permission. 5 lb 60° 400 C) 1015. 840 mm C с L = 1160 mm 800 mm 8 А 13 12 780N 500 N The magnitude of the resultant of the three forces is The direction of the The 10 kg mass is supported by the cable system shown. Two cables are tied together at C and loaded as shown. View the full answer. Draw a free-body diagram of Tugboat A. Determine the tension in cable B C. SOLUTION. The free-body diagram needed to determine the tension in cable AC and BC is The free-body diagram needed to determine the tension in cable AC and BC is Add: Force Comment select thundo Reset Force Name of Force SO 30°1 Tension at B (T) Origin Away/Towards Angle 327 . VIEW. 2: Determine the horizontal and vertical components of reaction at the pin A and the tension developed in cable BC used to support the steel frame. Determine the angles ?x, ?y, and ?z which the line of action of T forms with the positive x-, y-, and z-axes. Determine the tension in Member AB is supported by a cable BC and at A by a square rod which fits loosely through the square hole in the collar fixed to the member as shown in (Figure 1) . Composite bodies 4. Ta:cos0 Taccos45 W = mg 53 W =mg = 60*9. The forces in cables B A and B C can be determined by investigating the equilibrium of ring B. 5 m and the cylinder has a mass of 45 kg Figure < 1 of 1 0. 4 For the beam and loading shown, determine (a) the reaction at A, (b) the tension in cable BC. b) Determine the tension in cable AB. (Figure 1) Determine the x, y, and z components of reaction at A necessary for equilibrium of the rod using scalar notation. 40 For the beam of Prob. Determine the resultant of the three forces exerted at point B of beam AB. Question: PROBLEM 2 Knowing that α = 50° and that boom AC exerts on pin C a force directed along line AC, determine (a) the magnitude of that force, (b) the tension in cable BC. ) There are 2 steps to solve this one. 1 m 900 N 900 N 900 N B B B В 1950 N 7. (LO 1) 5 marks 84 in. 87°. Solution: We have to determine the tensions in the cables A B AB A B, B C BC BC, C D CD C D, and the slope of cable B C BC BC by using the arrangement given in Figure P3-9. ?A pipe strut BC is loaded and supported as shown. The cable supports the loading shown. (Beer and Johnston) - 13194421 train travelling it speed of 60 km/h is stopped in 15 seconds by playing Figure (A) Determine the tension in the cable ''BC''. 5 m BO 1 m 4 D 1 Im A Review Part A Determine the tension in the cable Question: Determine the tension in cables AB, BC, and CD necessary to support the 11-kg and 17-kg traffic lights at B and C, respectively. For the beam and loading shown, determine the tension in cable BC if P = 161. Question: 2. Draw FBD of the bar. 8 10. 2 . Fig. 5, T = 109. Determine the tension (a) in cable AC, (b) in cable BC. (20 points) Hint: draw the free body diagram for point C and write the equilibrium equation along x and y separately Question: Determine a) the required tension in cable AC, knowing that the resultant of the three forces exerted at point C of boom BC must be directed along BC, b) the corresponding magnitude of the resultant. End B leans against a frictionless vertical wall and end A is supported by a ball-and-socket joint. . 50. ) and 2) Determine the tension in cable BC. Here’s how to approach this The cable supports the loading shown Determine the distance y and the tension in cable BC. P4. Point A will be analyzed to determine the tension in the cable AC. The rod is supported by a ball-and-socket joint A and cables BC and BD. Submit your answer in kN. . Set P = 100 lb. Find an answer to your question Determine the tension in the cable BC. How do you solve for tension in cables BC and BD? To solve for tension in cables BC and BD, you will need to use the principles of statics and apply equations such as Question: Problem 5. The rod has a mass of 28 kg. 81) N (b) Not the question you’re looking for? Post any question and get expert help quickly. to/2i8HBOOMore videos: http://www. B 3 ft 10. 7, S = 263. b) The member is supported by a pin at A and cable BC as shown in (Figure 1). com/daxterbelsDetermine the react Question: Member AB is supported at B by a cable and at A by a smooth fixed square rod which fits loosely through the square hole of the collar. (You must provide an answer before moving on to the next part. Determine the tension in cable AB and the support reaction's components at C. If the bar is in static equilibrium, determine the tension in the cable and the reaction of the pin at A (including Ax, Ay, R A , and direction). Determine the cable tension for th; The uniform concrete slab has a mass of 2700 kg. Figure 4 100 lb 5 3 B 5 13 12 156 lb 5. so that the resultant Question: Problem 02. Express your answer to three significant figures and include the appropriate units. Find the Two cables are tied together at C and loaded as shown. ∘ Question: If the tension in the cable BC is 100 lb. It states: Three cables are joined at the junction ring C. Finally, point C will be The tension in cable BC is directed from B to C. Determine the x, y, and z components of reaction at A using scalar notation. The 200-kg crate in Figure is suspended using the ropes AB and AC . c) Determine the tension in cable AD. 5 m. Determine the magnitude of the vertical force P so that y -4m. Determine the tension in cable AD. 28 The street-lights at A and B are suspended from the two poles as shown. How to find the resultant. c) Write the equilibrium force reactions in x, y, and z. 88 Determine the tension in the cable at B, given that the uniform cylinder weighs 350 lb. 4-12a. Also, determine the forces in BC, BE, and CD. Determine the components of reaction at the ball-and-socket joint A and the tension in the Question: For a weight of 500 N, determine the reaction forces at A and D and the tension in cable BC. Each rope can withstand a maximum force of 10 kN before it breaks. Show transcribed image text Determine the tension in cable AC. 2 Knowing that the tension in cable BC is 145 lb, determine the resultant of the three forces exerted at point B of beam AB as shown in figure 4. Given: m=135kg. N-5000* 3. c. Determine the tensions in cables AC and BC caused by the weight of the 30"kg cylinder. The slab is held in the horizontal plane by three parallel supporting cables as shown. Determine the components of reaction at A, the tension in the cable, and the normal reaction at B if the rod has a mass of 20 kg. please help . 60 Knowing that portions AC and BC of cable ACB must be equal, determine the shortest length of cable that can be used to support the load shown if the tension in the cable is not to exceed 870 N. The primary boom AB has a mass of 1. Q21 Three cables are joined at the junction C as shown in fig Determine the tension in the cable AC and BC caused by the weight of the 30 kg cylinder Ans TAC=21544 N and TBC = 26386 N Question Q. 67 N, D = 166. SOLUTION Free-Body Diagram Force Triangle Law of sines: 400 lb sin60 sin 40 sin TTAC ==BC °°° (a) 400 lb (sin60 2. Determine the tension in cables AB,BC, and CD, necessary to support the Knowing that the tension in cable BC is 145 lb, Determine the resultant of the three forces exerted at point B of beam AB. Determine the weight W2 and the tensions in the cables AB, BC, and CD. Not the question you’re looking for? The tension force in cable BC is 2,100 lbs. Problem 5-71 X 30° 400 N B 6 m 3 m Z m D. Free-Body Diagram: (a) Reaction at A SF A x = =0: 0 x + SM B = + + + N mm mm) ( )-A y 150 0= A y = +1225 N A =1225 N≠ (b) Tension in BC + SM A = + +-0 75 550 100 400 175 200 75 150: ( )( ) ( )( ) ( )( ) ( )(N mm N mm N mm N Answer to Determine the tension in cable BC. Express your answer to three significant figures and include the appropriate units The member is supported by a pin at A and cable BC Suppose that r 2. If the load at D is 300 lb, determine the x y z components of reaction the pin A and the tension in cable B C 2 ft 2 ft 2 ft 6 ft 2 ft . Determine the tension in the cable AC and BC caused by the weight of the 30 kg cylinder. b) Determine the components of reaction force Answer to Determine the tension in cable BC. If the tension in the cable is 402 lb, determine the moment about A of the force exerted by the cable at B. Determine the tension in cable AB. This AI-generated tip is based on Click here 👆 to get an answer to your question ️Q21 Three cables are joined at the junction C as shown in fig Determine the tension in the cable AC and BC caused by the weight of the 30 kg cylinder Ans TAC=21544 N and TBC = 26386 N Question: For the beam and loading shown, determine the tension in cable BC if P = 161. 3-6a. Given: m = 1 3 5 k g. ) Two cables are tied together at C and are loaded with a force P = 390 lb as shown. A traffic-signal pole may be supported in the three ways shown; in part c, the tension in cable BC is known to be 1950 N. Also, find the angle ?. -ooo 200 300 lb Fig. Problem 5-35 m B 35 8 m G 8 m The crane has a primary The tension in the supporting cable AB is 10 kN. 840 mm L 1160 mm 800 mm 13 12 780 N 500 N Fig. 13) Determine the tension in cable BC supporting the load. A = 255 mm2 3 m 20 kN/m C W410 X 46. Moment of inertia 5. Determine the forces in cable BA and boom DB using the analytical method. Determine the tension in cable AB. 800 mm A 840 mm L=1160 mm 500 N B 13 12 780 N Spring AC and cable BC are connected to a pulley at C. To find the tension in cable BC, both the sum of forces in the x and y directions are considered, Vector mechanics for engineers by Beer and Johnston solution Knowing that a 5 208, determine the tension (a) in cable AC, (b) in rope BC. If AB always remains horizontal, determine the smallest angle u to which the crate can be suspended before one of The smooth uniform rod AB is supported by a ball-and-socket joint at A, the wall at B, and cable BC. 3 The member is supported by a pin at A (Note: reactions at A are Ay, Ax, Az, My, and Mz) and cable BC. b) Draw a free body diagram (FBD) and determine the magnitude of the torque (lbf-ft) and bending moment (Ibf-ft) of the location cited in a). Draw the free-body diagram needed to determine the tension in AC and BC. tension in cable BC. Determine the. The tension in cable BC is 700lb. 88 - ANSWER SHOULD BE in lb. Determine the magnitude and the direction of the resultant force at point B exerted by the two cables. The tension in cable BC is 725 Newton. 400 lb P D C 2 ft X Probs. The strut has a uniform cross section and a mass of 50 kg. Write the force which this cable exerts on the boom OAB as a vector T. ) A) 1234. A box is supported by the rope with a force P. Also, compute the sag y_B and the maximum tension in the cable. The tension The smooth uniform rod AB is supported by a balland-socket joint at A, the wall at B, and cable BC. Determine the tension in cable AC and the tension in cable AD. 25° 35° 400 1B 4. The weights W1 = 50 N and W2 are suspended by the cable system shown. 1 The member AB is supported at B by a cable and at A by a smooth fixed square rod which fits loosely through the square hole of the collar. 30 6 ft 40° 800 Ib 12 ft Expert Solution. Neglect friction and the weight of bar AB. There Maximum tension in the cable will be determined, as will sag of point B. Step 2. There are 2 4. determine the reactions at the fixed built-in support at A. A steel cable is stretched from the free end B of the boom to a point C located on the vertical wall. Find?x, ?y, ?z. The bar makes an angle of 30° with The tension in cable AC is 250 N, as it balances the horizontal component of P. 840 mm C L= 1160 mm 800 mm B A 5 4 3 13 51 12 780N 500 N The magnitude of the resultant of the three forces is The direction of the resultant of the three forces is N. 4-12c. Determine by trigonometry the magnitude and direction of the resultant of the two forces applied at B at that instant. Determine the magnitude of the horizontal force P so that x = 6 ft. Determine the reaction at each of the two (a) rear wheels A, (b) front wheels B . to/2py6FInMore videos: http://www. Knowing that the tensions in chains DE and FH are 225 N and 135 N, tespectively, and that d = zz : m, determine (a) the tension in cable BC, (b) the reaction at A. А 5° 1200 lb B Fig. Solution For Knowing that the tension in the cable BC is 145 N, determine the resultant of the three forces exerted at point B of beam AB. Your solution’s ready to go! Our expert help has broken down your problem into an easy-to-learn solution you can count on. SOLUTION Free-Body Diagram: C (For 725 N)T = 0: 2 1200 N 0y Question: Determine the tension in cables AB, BC, and CD, necessary to support the 10-kg and 15-kg traffic lights at B and C, respectively. Consider (Figure 1). Determine the tension in cables BA and BC necessary to support the 60-kg cylinder in Fig. Knowing that P = 300 N, determine the tension in cables AC and BC. 48 Fig P2. A B 30° 45° С Activate Windows . A 840 mm L = 1160 mm 800 mm 780N Fig. Determine the position x and the tension in the cord that is required for equilibrium. NO FBD = NO CREDIT. Assume a condition of equilibrium exists at B. 5-71. Another cable supports a 50 lbf block at point C. Neglect the weight of AB. 48 Determine the tension in cables BC and BD and the reactions at the ball and socket joint A for the mast shown. We did this problem in class. Free body diagram. a) Determine the components of reaction at A and the tension in the cable needed to hold the rod in equilibrium. Write the force which the cable exerts on the boom BC as a vector T. 65, and b = 13. Please Suppose that r = 3. Determine the force F3 and resultant, R, give that: i. 5 m and the cylinder has a mass of 30 kg. Determine by trigonometry the tension in tope AC and the value of a. 50 mm, determine the Determine the following: a. Engineering; Mechanical Engineering; Mechanical Engineering questions and answers; a winch puller AB is used to straighten a fence post. L = 116 in. Step 1. Books; Discovery. 6 N 0 = tan (3:4) = 37 Σ-0 Tục cos45 – TBAcos37 0 (1) EF, = 0 TBCsin45 + TBASin37- w 0 Question: Determine the tension in cables BA and BC necessary to support the 80−kg cylinder in the figure below (25 Points)Determine the tension in cables BA and BC necessary to support the 60−kg cylinder in Fig. 5-4/5 B A 5 ft 8 ft 2 ft Determine the tension in cables AB,BC, and CD, necessary to support the11-kg and 18-kg traffic lights at B and C, respectively. Determine the tension in cables AB, BC, and CD, necessary to support the 11-kg and 17-kg traffic lights at B and C, respectively. Given that P=(300+ last two digits of ID) NPROBLEM 1 Knowing that the tension in cable BC is 740 N, determine the resultant of the three forces exerted at Point B of beam AB. Question: Determine the tension in cables BA and BC necessary to support the 90−kg cylinder in the figure below (10 Points). fzttyogxjzhhlftwapcylwsrsphcqpkgwhlhhojypdkbydxzuvs