Draw shear force and bending moment diagram of the beam shown in figure 1 for the gives loadino. [3+12] DO 4 KN A C 2 m 10 kNm E Figure 1 3 m 4 KN im DO B
Q: The horizontal beam in the figure below (Figure 1) weighs 130 N and its center of gravity is at its…
A: Part B : 608.33 N Part C : 486.67 N Part D : 65 NExplanation:
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Q: Anil
A: Approach to solving the question: Detailed explanation: Examples: Key references:
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A: Given : Torque τ=38 Nm r=25 cm=25×10-2 m Angle θ=120°
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A: by draw free body diagram we calculate the net force upon point O and find the value of its .
Q: 31. Shear force equation for segment BC. * a. 7.35KN-0.15x2(KN/m2) b. 7.26KN-0.18x2(KN/m2) c.…
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A: Please see the attached image for the solution.Note that the reaction of the pivot do not cause any…
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Q: A board of mass mand length l is attached to a wall and a rope that makes an angle of theta, as…
A: Free-body diagram
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A:
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A: Mass of beam =m Angle =θ
Q: 40.0° K 2.0 m 30.0°
A:
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A: Since both the reactions are positive, this is a stable position.
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A: The uniform beam’s free-body diagram is shown below. Here, T denotes the cable’s tension.
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A: Approach to solving the question: Detailed explanation: Examples: Key references:
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Q: 4.0 m
A: Given Weight of beam = 13 N Length of beam = 6 m Rope is join with beam at 2 m from the hinge
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A: Length of the beam = 5 mWeight of the beam Weight of the person
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- Hi I needed help with this question. As shown in the figure below, a uniform beam is supported by a cable at one end and the force of friction at the other end. The cable makes an angle of ? = 30°, the length of the beam is L = 2.00 m, the coefficient of static friction between the wall and the beam is ?s = 0.600 and the weight of the beam is represented by w. Determine the minimum distance x from point A at which an additional weight 2w (twice the weight of the rod) can be hung without causing the rod to slip at point A. X=?Problem 2: A uniform beam of length L = 1.9 m and mass M = 49 kg has its lower end fixed to pivot at a point P on the floor, making an angle 0 = 15° as shown in the digram. A horizontal cable is attached at its upper end B to a point A on a wall. A box of the same mass M as the beam is suspended from a rope that is attached to the beam one-fourth L from its upper end. M M.Two children of mass 21 kg and 26 kg sit balanced on a seesaw with the pivot point located at the center of the seesaw. If the children are separated by a distance of 2 m, at what distance from the pivot point is the small child sitting in order to maintain the balance? m
- a. A 1200-N uniform boom of length 2.00 m is supported by a cable, as shown in the figure. The boom is pivoted at the bottom, and a 2000-N weight hands from its top. Find the tension in the cable and the components of the reaction force exerted on the boom by the floor. For the next two parts you can assume that the 2000-N weight is concentrated at the top end of the boom. b. Determine the total moment of inertia of the boom/weight system around the pivot point. c. The cable now breaks, and the boom pivots until the right end hits the floor. Determine the velocity of the right end at the instant before it hits the floor.To Brig 12.54 kg The h 20 th Orange, NJ The plank you are going to walk has a length of 7.20 m and a mass of 12.54 kg. The plank is no bolted down but is to be placed so that 2.56 m of the plank are actually in contact with the boat. The rest of the board overhangs the jelly fish infested waters. You have a mass of 73.8 kg. What is the minimum mass you must put on the end of the board that is still on the ship so that your can successfully walk to the end of the plank without have the board rotate you into the water? When you are ready to enter your answers, hit the end button. EndPlease answer the question in the picture below. Thank you so much for your help!!
- I need help with all the parts.The 600-kg uniform I-beam supports the load shown. Determine the reactions at the supports. Answers: Ax Ay = = By = p -7.5 m- +4.5 m 285 kg N N N BA 7.64-m uniform beam is hinged to a vertical wall and held horizontally by a 5.00-m cable attached to the wall 4.00 m above the hinge, as shown in the figure. The metal of this cable has a test strength of 728 N, which means that it will break if the tension in it exceeds that amount. What is the largest mass the beam can have? Round your answer to one decimal place.