Knowing that the tension in cable bc is 725 n. Show transcribed image text.
Knowing that the tension in cable bc is 725 n Three cables are used to tether a balloon as shown. There is a bean attached to the wall. 2 - Knowing that Knowing that E is at the midpoint of BC and that the tension in cable EF is 184 lb, use the dot product to a. (Reference to Sep 13, 2008 · 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. Show transcribed image text. Using the given angles and the trigonometric functions, find BCx and BCy. Step 4. A cable of length L = 1160 m m from point B ends at point C on the vertical support. 8 The compressive force in bar AB is 364 × kg. Three cables are connected at A, where the forces P and Q are applied as shown. F2 F1 Situation 4 Knowing that the tension in cable BC is 725 N determine the resultant of the three forces exerted at point B of beam AB. Given. 36 Knowing that the tension in cable BC is 725 N, determine the resul- tant of the three forces exerted at point B of beam AB. 2 - Knowing that = 75, Question: Knowing that the tension in cable BC is 770 N, determine the resultant of the three forces exerted at Point 8 of beam AB - 840 mm L 1160 mm 800 mm 13 780 N 500 N N The magnitude of the resultant of the three forces is The Knowing that the tension is 510 lb in cable AB and 425 lb in cable AC, Ch. 85, determine the magnitude and direction of the resultant of the forces exerted by the cables at B knowing that the tension is 540 N in cable B G and 750 N in cable BH. Therefore, we cannot accurately calculate the Find the reaction forces at point A (pin) and the tension in cable BC as shown in the figure. 70 m The wire AE is stretched between two corners A and E of a bent plate. 86. 37 Knowing that a = 40°, determine the resultant of the three forces shown. [Solved] 236 Knowing that the tension in cable B C is 725 N determine the resultant of the three forces exerted at point B of beam A B VIDEO ANSWER: I'm Hi. 603 and f of x1 is 525 newton. p2. The magnitude of the resultant of the three forces is The direction of the resultant of the three forces is z. A figure shows a beam A B fixed to a vertical support at point A. N-m)j +. There are two forces that are off at this point. Unlock. Knowing that the tension in cable AC is 444 N, draw the free-body diagram needed to determine the vertical force P exerted by the balloon at A . For the second part of the equation resolve for 500 in x and y direction sin alpha is equal to 4 divided by 5 so Question: Question 5 Tension in cable BC is 725-N, determine the resultant of the three forces exerted at point B of beam AB 840 mm с L = 1160 mm 800 mm B 13 A 5 12 TSON 500 N . The magnitude of the resultant of the three forces is N. The beam has a fixed end at point A. The tension force typically has both x and y components that can be found using trigonometry. Knowing that the tension in the cable BC is 1040 N and length d is 1. Solution Summary: Ch. 48: Text Alternative (Chapter 2) Point C is above and to the left of point B. 840 mm L = 1160 mm mm 500 N Solution: Resolve each force into rectangular components. 1. 7 m 1 m x add Oct 8, 2024 · A rectangular plate is supported by three cables as shown. Answer. Here’s the best way to solve it. This being one of the wars has given us this having a magnitude off 780Newton Question: Knowing that the tension in cable BC is 775 N, determine the resultant of the three forces exerted at Point B of beam AB. 48 Fig P2. 90 m, determine the moment about D of the force exerted by the cable at C by resolving that force into horizontal and vertical components applied (a) at point C, (b) at point E. 87 and P2. statics. 148 D ded 0. Calculate the magnitude and direction of the resultant. Concordia PROBLEM 2. Mar 7, 2023 · Knowing that the tensions in cables AB and BC are 555 N and 660 N, respectively, determine the moment about point O of the resultant force exerted on the tree by the cables at point B. 90 m, determine the moment about D of the force exerted by the cable at C by resolving that force into horizontal and vertical components applied (a) at Point C, (b) at Point E. Two cables are tied together at C and loaded as shown. The force exerted by the beam AB is represented by the vector AB, and the force exerted by the beam AC is Dec 3, 2023 · If the tension in cable BC is the only force provided, we cannot determine the resultant force at B without further data. Replace P with an equivalent force- couple system at C. 12th Edition. 1 m b 3. 46 reading is 0. Two cables are tied together at C and are loaded as shown. The magnitude of the resultant of the three forces is The direction of the resultant of the three forces is 7. Knowing that Q = 0, find the value of P for which the tension in cable AD is 305 N. Knowing that E is at the midpoint of BC and that the tension in cable EF is 184 Ib, use the dot product to a. Knowing that portions AC and BC of cable ABC must be equal, determine the shortest length of cable which can be used to support the load shown if the tension in the cable is not to exceed 725 N. In this video, I go through a static particle equilibrium problem! This problem is one of the most basic problems you will see in engineering statics! Hopefu Question: Knowing that the tension in cable BC is 145 lb, determine the resultant of the three forces exerted at point B of beam AB. For the second part of the equation resolve for 500 in x and y direction sin alpha is equal to 4 divided by 5 so In this video, I go through a static particle equilibrium problem! This problem is one of the most basic problems you will see in engineering statics! Hopefu Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. 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. B 7 m 6 m 4. 102. 12 3. 5m- -15 -1. arrow_forward The answer of question Knowing that the tension in cable AC is 1. 39 A collar that can slide on a vertical A rectangular plate is supported by three cables as shown. 2 - Two cables tied together at C are loaded as shown. Knowing that the tension in wire AC is 120 lb, determine ( a ) the components of the force exerted by this wire on the pole, ( Knowing that the tension in cable BC is 1040 N and length d is 1. SAMPLE PROBLEM 2 . 603 ∘ as calculated from sin γ = 800 1,160. Question: Knowing that the tension in cable BC is 765 N, determine the resultant of the three forces exerted at Point B of beam AB. You know, this is tha cable and there are two forces acting at this point to be off. -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 VIDEO ANSWER: Hi, I'm here. A crate is supported by three cables as shown. Question: 2. answer. [5 marks] (CLO2:PLO1:C3) This question hasn't been solved yet! Not what you’re looking for? Submit your question to a subject-matter expert. 2 - Knowing that = 75, determine the resultant of the Ch. 840 mm с L=1160 mm 800 mm B А 5 14 13 51 12 3 780 N 500 N 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. forces 840 mm L = 1160 mm 800 mm B A 13 14 T2 780 N 500 N. It also has an internal hinge at point B. 3 m с 2. Knowing that the tensions in cables AB and BC are 555 N and 660 N, respectively, determine the moment about O of the resultant force exerted on the tree by the cables at B 4. Point C is fixed 800 Transcribed Image Text: 2. A stake is being pulled out of the ground by means of two ropes as shown. Cable AC forms an angle of 5 degrees to the right of vertical. Search Instant Tutoring Knowing that the tension in cable B C B C BC is 725 N 725 \mathrm{~N} 725 N, determine the resultant of the three forces exerted at point B B B of beam A B A B A B. &+0 mm L = 160 mm goO mm 13 5 12 780 N 5 500 N Added by Kimberly C. Knowing that the tension in cable BC is 725 N, 2. Question: Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. Knowing that the tension in cable BC is 145N, determine the resultant of the three forces exerted at point B of beam AB in Figure 1. . Step 2. 2 World's only instant tutoring platform. Engineering Knowing that α = 3 5 ∘ \alpha=35^{\circ} α = 3 5 ∘ , Cable BAC passes through a frictionless ring A and is attached to fixed supports at B and C, while cables AD and AE are both tied to the ring and are attached, respectively, to supports at D and E. Knowing that the tension in cable BC is 790 N, determine the resultant of the three forces exerted at Point B of beam AB. Figure 4 100 lb 5 3 B 5 13 12 156 lb 5. 75 m N-m)i + The moment about of the resultant force exerted on the tree by the cables at B is ( N. Vector Mechanics for Engineers: Statics (Kindle Locations 1624-1625). Watch. 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 Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. calculate the internal resultant loadings (N, V, M) at points E and F, which lies in the middle between points A and D Aug 7, 2023 · Knowing that the tension in the left-hand portion of the cable is T1 Log in Join. 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. 3 m 3 m C 0. Science; Physics; Physics questions and answers; Knowing that the tension in cable BC is 815 N. Answered step-by-step. 4 N. 4 m, h₂ = 0. 36 Knowing that the The end of the coaxial cable AE is attached to the pole AB, which is strengthened by the guy wires AC and AD. 3 The corresponding value of Situation 4 Knowing that the tension in cable BC is 725 N determine the resultant of the three forces exerted at point B of beam A B. 36 2. Given data-tension in cables. Knowing that the tension in cable BC is 725 N, determine the resultant of Question: Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at Point B of beam AB. Not the question you’re looking for? Post any question and get For the cables of Prob. the components of the force exerted by cable EF at point E in the directions parallel and perpendicular to member BC. The bean is attached to the wall. 9 m e 2 m f 5. F5 Solution Summary: The author illustrates the free body diagram needed to determine the vertical force exerted by the balloon at A in Fig. Variable Value a 8. 62 PROBLEM 2. 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. 840 mm L=1160 mm 800 mm la B 30 A 200 N 100 N 13 12 780 N 150N Fig. Determine the weight W of the crate, knowing that the tension in cable AB is 1378 lb. 2 m 0. Then there is ah, bean attached with the wall. 2 - Two cables are tied together at C and loaded as Ch. There are two forces that are off at this point in time. 35 Knowing that the tension in cable BC is 145 lb, determine the resultant of the three forces exerted at point B of beam AB Show transcribed image text There are 4 steps to solve this one. You know, this is tha cable and there are two forces acting at 2. This is supposed to be a rigid wall. 2. For unlimited access to Homework Help, a 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. 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 Question: . BCx = 725 cos(45) = 513. Ggyhhjjnvfgbnh6881 Ggyhhjjnvfgbnh6881 725 N DIVIDED By THE No. Dec 16, 2020 · VIDEO ANSWER: Knowing that the tension in cable B C is 725 \\mathrm{N}, determine the resultant of the three forces exerted at point B of beam A B. 60 m 9. 7 m d 3. 840 mm с L=1160 mm 800 mm B А 13 3 780 N 500 N The magnitude of the resultant of the three forces is Question: Knowing that the tension in cable BC is 780 N, determine the resultant of the three forces exerted at Point B of beam AB. Question: Knowing that the tension in cable BC is 815 N, determine the resultant of the three forces exerted at Point B of beam AB. Answer 800 mm C A 840 mm L = 1160 mm 500 N B 5 13 12 780 N Q1 Knowing that the tension in cable BC is 725N, determine the resultant of the three forces exerted at point B of beam AB. 39 A collar that can slide on a vertical Answer to 16 Knowing that the tension in cable AC is 2220 N, Engineering; Mechanical Engineering; Mechanical Engineering questions and answers; 16 Knowing that the tension in cable AC is 2220 N, determine the components of Sep 12, 2023 · 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. Here’s the best way to Knowing that the tension in cable BC is 770 N, determine the resultant of the three forces exerted at Point B of beam AB 840 mm L = 1160 mm 800 mm B 13 12 780 N 500 N N The magnitude of the resultant of the three forces is The Before the trunk of a large tree is felled, cables AB and BC are attached as shown. Vector Mechanics for Engineers: Statics. The tension in cable BC is 393 × N. The resultant of the three forces exerted at point B of beam AB. 89 Knowing that the tension in cable AB is knowing that tension in cable BC is 725N, determine the resultant of the three forces exerted at pint B of beam AB. Related questions. mk. Determine the weight W of the crate, knowing that the tension in cable AD is 924 lb. The tension in cable BC is purely horizontal, so we don't need to resolve it. Knowing that the tensions in cables AB and BC are 560 N and 665 N, respectively, determine the moment about of the resultant force exerted on the Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B. P2. 88. 60 Knowing that portions AC and BC of cable ACB must be equal, determine the shortest length of cable which can be used to support the load shown if the tension in the cable is not to exceed 725 N. 3 m 0. 3 m F B G H A 2. 3Knowing that the tension in cable BC is 725 N , determine the resultant of the three forces exerted at point B of beam AB. Determine the tension (a) in cable AC, (b) in cable BC. Step 3. 25 m 1 m 0. determine the resultant of the three forces exerted at Point of beam AB. 110. a 13 4. 101 and P2 . This being one of the wars has given us this having a magnitude off 780 Newton and another force is given as this having a magnitude off 500 Newton. The beam supports a point load at point D, a moment at point A and a distributed load on segment BC. 107and P2. (Prob 4. Q: If the resultant force acting on the bracket is to Given that the tension in cable BC is 145 N, determine the resultant of three forces exerted at point B of the beam AB Answ: R 452 N 7 623 84 cm 80 cm B B 13 A 5 UN 12 156 N 100 . For the beam in the figure below, determine (a) the required tension in cable BC if the resultant of the three forces exerted at Point B is to be horizontal, (b) the corresponding magnitude of the resultant. Question: Problem 02. Because the description of the problem does not provide information on the directions or magnitudes of the other forces at point B, the Knowing that the tension in cable BC is 795 N, determine the resultant of the three forces exerted at Point B of beam AB. 110N 85 N 80 lb VIDEO ANSWER: The exit equation for the first part is 725 newton in x and y component f of x1, eta is 43. 25 1m 075m Step 1. S 840 mm ос L= 1160 mm 800 mm 780 N 500 N . L = 1160 mm 800 mm 780 N SOON . Knowing that the tension is 600 N in AB and 200 N in AD, determine graphically the magnitude and direction of the resultant of the forces exerted by the stays at A using (a) the parallelogram law, (b) the triangle rule. 1000 N 110 mm 20 3. 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 Question: Knowing that the tension in cable BC is 785 N, determine the resultant of the three forces exerted at Point B of beam AB. Question: Exercise 2: Knowing that the tension in cable BC is 725 N, determine the magnitude and direction of the resultant of the three forces Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below. 840 Knowing that the tension in cable BC is 725N, determine the resultant of the three forces exerted at point B of beam AB. Mechanics: The field of mechanics deals with the behavior of the physical body under the application of different Mar 15, 2024 · Resolve the force along BC into horizontal and vertical components; let the horizontal component be BCx and the vertical component be BCy. 5. views. Step 1. Label the forces and their magnitudes. Engineering; Mechanical Engineering; Mechanical Engineering questions and answers; Exercise 1: Determine the magnitude and direction of the resultant of the three forces shown. There are 2 steps to Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. a. The person is helping off a cable. 840 mm L 1160 mm 800 mm 13 12 780 N 500 N Our expert help has broken down your problem into an easy-to-learn solution you can count on. There is help off a cable. 36. Knowing that the tension in cable BC is 725 N, Ch. 48 Knowing that a= 20°, determine the tension (a) in cable AC, (b) in rope BC. A 1200 pound weight is attached at point C. 7 m E 3. 2 - Knowing that = 40, Oct 9, 2016 · Knowing that the tension in cable BC is 1040 N and length d is 1. Calculate the Oct 9, 2016 · The cable stays AB and AD help support pole AC. Fantastic news! We've Found the answer you've been seeking! Question: Knowing that the tension in cable BC is 740 N, determine the resultant of the three forces exerted at Point B of beam AB. 2. 2 - Knowing that the tension in cable BC is 725 N, Ch. Knowing that the tension in cable AC is 2130 N, determine the Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. i attached the picture that came with the problem. Dec 3, 2023 · Find an answer to your question Knowing that the tension in cable BC is 725 N, determine the resultant of the three forcesexerted at point B of beam AB Unfortunately, the question only specifies the tension in cable BC as 725 N without further details on the other forces or their orientations. P3. For the cables of Prob. P2. 725/2=262. 35 SOON Fig. Explanation: https Knowing that the tension in rope AC is 365 N, determine the resultant of the three forces exerted at point C of post BC. To start, resolve the tension in cable BC, which is 725 N, into its x and y components using the trigonometric relationships with angle γ where γ = 43. View the 2. 875 m Question: Knowing that the tension in cable BC is 810 N, determine the resultant of the three forces exerted at Point B of beam AB. The Jan 23, 2017 · 2. The help off a cable. determine the angle A rectangular plate is supported by three cables as shown. One of the wars has given us this having a Feb 6, 2024 · Since the tension in cable BC is known to be 725 N, we start by drawing a free-body diagram to visualize all the forces acting at point B, including the given tension force. Knowing the magnitude and direction of the force exerted on one rope, determine the magnitude and direction of the force P \mathbf{P} P that should be exerted 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. Author: Ferdinand Question: Knowing that the tension in cable BC is 725 N, determined by the resultant of the three forces exerted at the point B of AB beam. forces 840 mm с L = 1160 mm 400 mm B A 13 TZ 780 N 500 N . determine the angle between EF and member BC b. С L=1160 mm 800 mm a 30 200 N 100 N 150 N 750N Fig. Note the figure may not be to scale. 5 m. There are 2 steps to solve this one. 13 12 780 N 500 N B. Vector Mechanics for Engineers: Statics and Dynamics. Chapter 2 problems. 89, knowing that the tension is 1425 N in cable AB and 2130 N in cable AC, determine the magnitude and direction of the resultant of the forces exerted at A by the two cable Prob. Refer Fig. 2 - Knowing that = For the frame of Prob. Solution for Knowing that the tension in cable BC is PROBLEM 1: Knowing that the tension in cable BC is 725N, [1] Calculate x-component of the resultant of the three forces acting on B (ANSWER: 105 N) ; [2] Calculate y-component of the The tension in the cable BC (725 N) is represented by the vector BC. Transcribed Image Text: 800 mm A -840 mm- L = 1160 mm 500 N B 3 13 12 780 N. Free body diagram: View The help off a cable. Fig. Determine ( a ) the maximum force P that can be applied at C , ( b ) the corresponding value of α . 2 - Knowing that = 40, determine the resultant of the Ch. 4 mas SHOWN. Transcribed Image Text: L= 1160 mm %3D 800 mm A. There are 3 steps to solve this one. Expert Solution Situation 4 Knowing that the tension in cable BC is 725 N determine the resultant of the three forces exerted at point B of beam AB. Assume h₁ = 0. Kindle Edition. Determine the range of values of P for which both cables remain taut. 2 - Knowing Knowing that the tension in cable BC is 815N, determine the resultant of the three forces exerted at Point B of beam AB. Determine the components of the resultant by adding the N corresponding force components. 35 Knowing that a = 35°, determine the resultant of the three forces shown. 2 . It is given that tension in this cable be see is 725 Newton. Knowing that the tension in cable BC For the cables of Prob. This is supposed to be a rigid wall in the problem. (LO 1) 5 marks 84 in. In this case, we have the tension in cable BC, which is 725 N, and two vertical forces acting downwards, which we'll call F1 and F2. 2 - The end of the coaxial cable AE is attached to The beam is supported by a fixed support at point C and a roller at point A. Solution. Feb 6, 2024 · Since the tension in cable BC is known to be 725 N, we start by drawing a free-body diagram to visualize all the forces acting at point B, including the given tension force. 90 m, determine the moment about D of the force exerted by the cable at C by resolving that force into horizontal and vertical components applied ( a ) at Point C , ( b ) at Point E . 5 m 15m- 100 N | View Answer. Answer +20. Knowing that the tension in cable AC is 60 N, determine the weight of the plate. Situation 3 Knowing that the tension in cable BC is 725 N determine the resultant of the 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. The direction of the resultant of the three forces is ⦫ °. S o l u t i o n: The F B D Knowing that the tension is 425 lb in cable AB and 510 lb in cable AC, Ch. The direction of the resultant of the three forces is 7. 4 N and BCy = 725 sin(45) = 513. 35 500N Fig. The magnitude of the resultant of the three forces is The direction of the resultant of the three forces is ∀ N. 108. Sep 13, 2023 · Example 3: Tension in cable BC is 725 N; determine the resultant of the three forces exerted at point B of beam AB. Ch. 2 - PROBLEM 2. Knowing that P = 300 N, determine the tension in cables AC and BC. 90 m (b) E C D 12 13 5 T T ABy AB T Knowing that the tension in cable BC is 730 N, determine the resultant of the three forces exerted at Point B of beam AB. Determine (a) the maximum force P that can be applied at C, (b) the corresponding value of a. Draw a diagram of the forces and their directions. The framing members AB, BC, and CD are joined at B and C and are braced using cables EF and EG. This being one of the wars has given us this having a magnitude off 780Newton The image shows a diagram with various forces and dimensions labeled. 46, it is known that the maximum allowable tension is 600 N in cable AC and 750 N in cable BC . ISBN: 9781259977268. 90 m, determine the Knowing that the tension in cable BC is 740 N, determine the resultant of the three forces exerted at Point B of beam AB. 21: Before the trunk of a large tree is felled, cables AB and BC are attached as shown. Knowing that the tension in cable BC is 1040 N and length d is 1. The magnitude of the resultant of the three forces 4. 80 in. Point A is above and to the left of point C. Knowing that the tensions in cables AB and BC are 625 N and 730 N, respectively, determine the moment about O of the resultant force exerted on If you are a student using this Manual, you are using it without permission. 21) Adjustable pliers hold a round metal bar as a machinist grips the handles with a force, P = 50 N. watching. 840 mm L-116amm 60 A 800 mm 045 D 13 B 780 1 e 500% Figure for Q1 Figure for Q2 Q3 Two smooth spheres VIDEO ANSWER: Hi. In the given problem here, this is supposed to be a rigid wall. As a student learning about forces in physics, it's Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB . Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. (Beer and Johnston)​ The smooth uniform rod AB is supported by a balland-socket joint at A, the wall at B, and cable BC. - 840 mm L= 1160 mm 800 mm - 5В 13 780 N 500 N Show transcribed image text Question: Knowing that the tension in cable BC is 725 N, determine the resul- tant of the three forces exerted at point B of beam AB. 5 it's a 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 Knowing that the tension in cable BC is 735 N, determine the resultant of the three forces exerted at Point Bof beam AB. 4 m The mass of the block is 68. 36 Knowing that the tension in cable BC is 725 N, Science; Advanced Physics; Advanced Physics questions and answers; Knowing that the tension in cable BC is 815N, determine the resultant of the three forces exerted at Point B of beam AB. Beer, Ferdinand; Beer, Ferdinand. Transcribed Image Text: 1. Total views 10. A winch puller AB is used to straighten a fence post. Problem 3. Q2 A BO0 N force Pis applied at point A of a structural member. 2 - Knowing that = Two cables are tied together at C and are loaded as shown. calculate the support reactions at points A and C b. 840 mm ! L=1160mm 800 mm 13 12 780 N 500 N The magnitude of the resultant of the three forces is The For the cables of Prob. 840 mm L= 1160 mm 800 mm 13 5 12 780 N 500 N The magnitude of the resultant of the three forces is The Determine the vertical force P exerted by the balloon at A knowing that the tension in cable AD is 481 N. Jan 9, 2018 · PROBLEM 2. Point C is fixed 800 millimeters above point Knowing that the tension in cable BC is 820 N, determine the resultant of the three forces exerted at Point B of beam AB. 3 Knowing that the tension in cable B C is 7 2 5 N , determine the resultant of the three forces exerted at point B Nov 28, 2020 · Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B of beam AB. 30 m 0. Not the question you’re looking for? Post any question and get expert help quickly. The magnitude of the resultant of the three Knowing that the tension in cable AB is 2 kips, determine the components of the force exerted at A by the cable. Tension in cable BC (F_BC) = 660 N; Since we assume both tensions are acting at angle θ with respect to the horizontal, If the tension exerted in each of the cables is 950 N, determine the moment about A of the force exerted by : a) The cable at C b) The cable at D. 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 725 N, determine the resultant of the three forces exerted at Point B of beam AB. Knowing that the tension in cable A B A B A B is 408 N 408 \mathrm{~N} 408 N, determine the components of the force exerted on the plate at B B B. i am lost and not sure how to approach the problem. It states that the tension in the cable BC is 145 N, and it asks to determine the resultant of the three forces exerted at point B of beam AB. VIDEO ANSWER: I'm Hi. Answer to Knowing that the tension in cable BC is 815 N. -840 mm L = 1160 mm 800 mm B А 13 780 N SOON es The magnitude of the resultant of the three forces is N The Before the trunk of a large tree is felled, cables AB and BC are attached as shown. 85 and P2. Knowing that the tensions in cables AB and BC are 625 N and 730 N, respectively, determine the moment about O of the resultant force exerted on Knowing that the tension in cable AC is 444 N, draw the free-body diagram needed to determine the vertical force P exerted by the balloon at A. 545. (a) Do you know the specific weight of mercury? (b) Do you know the specific weight of gasoline? (c) Do you know the specific weight of oil? (a) YHg = 133,000 (b) Ygas = 6867 (c) Knowing that the tension in cable AC is 60 N, determine the weight of the plate. The magnitude of the resultant of the three forces isThe direction of the resultant of the three forces is $ Your Knowing that α = 2 0 ∘, determine the tension (a) in cable AC, (b) in rope BC by using the analytical method. (Beer and Johnston) - 13194421. Exercise 2: Knowing that the tension in cable BC is 725 N , determine the magnitude and direction ofthe resultant of the three forces shown exerted at point B of beam AB. Resolve the forces into their horizontal and vertical components. pdf - PROBLEM 2. 1 answer. StudyX 2. A: Ta 00 1200 lb B Fig. BUY Vector Mechanics for Engineers: Knowing that portions AC and BC of cable ACB must be equal,determine the shortest length of cable that can be used to supportthe load shown if the tension in the cable is not to exceed 870N. Step 3/6 3. 75 m 7. In each case, determine the tension in each cable. 3 days ago · Question: SAMPLE PROBLEM 2. (F Jan 29, 2024 · To determine the resultant of the three forces exerted at point B of beam AB, knowing that the tension in cable BC is 725 N, you would have to consider all the forces acting at point B and their directions. 44, find the value of α for which the tension is as small as possible ( a ) in cable BC, ( b ) in both cables simultaneously. Solution:-View the full answer. 6 A telephone cable is Pages 14. Knowing that the tension in cable BC is 725 N, determine the resultant of the three forcesexerted at point B of beam AB. -840mm L- 1160mm 800mm B 13 5 12 780 N 500 N. Given: a = 252 in, b = 240 in, F1 = 600 N, F2 = 910 N Final answer should be rounded off to 3 significant figures. × N. Instant Answer. 840 mm L=1160 mm 800 mm B А 13 12 780 N SOON The magnitude of the resultant of the three forces is The VIDEO ANSWER: The exit equation for the first part is 725 newton in x and y component f of x1, eta is 43. Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at point B. 109 and P2. Question: Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces exerted at Point B of beam AB. 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. Question: Fig. SOLutiOn Nov 1, 2023 · Knowing that the tensions in cables AB and BC are 625 N and 730 N, respectively, determine the moment about O of the resultant force exerted on the tree by the cable at B. 0 m 2. D 0. Oct 24, 2019 · 4. BUY. 5 kips, determine the components of the force exerted at A by the cable. 840 mm L= 1160 mm 800 mm 574 13 5 12 780 N 500 N N The magnitude of the resultant of the three forces is Jul 3, 2023 · Knowing that the tension in cable BC is 725 N, determine the resultant of the three forces . Search Instant Tutoring Knowing that portions AC and BC of cable ACB must be equal, determine the shortest length of cable which can be used to support the load shown if the tension in the cable is not to exceed 725 N. Knowing that a 200-lb vertical load P is Question: Before the trunk of a large tree is felled, cables AB and BC are attached as shown. ∘ 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 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. Knowing that the tension in cable BH is 750 N, determine the components of the force exerted by cable BH on the frame at B. Knowing that the tension in the wire is 435 N, determine the moment about O of the force exerted by the wire (a) on corner A, and (b) on corner E. The magnitude of the resultant of the three forces is n. 2 - Knowing that = 55 and that boom AC exerts on pin Ch. McGraw-Hill Higher Education. L = 116 in.