Determine the reaction components for the three hinged semi-circular arch shown. Solve for the absolute value of Ax (kN). 50 KN 60 KN 30 KN 40 kN 300 300 300 B 20 m 20 m
Q: 3-141E A semicircular 30-ft-diameter tunnel is to be built under a 150-ft-deep, 800-ft-long lake, as…
A: The values are as follows,…
Q: 1.) An open horizontal tank, 1.5m high, 2m wide, and 5m long is full of oil (sp gr= 0.9). It is…
A:
Q: A parabolic arch, symmetrical with hinges at centers and ends, carries a point load P at distance x…
A:
Q: 20 kN 18 kN D 4 E. 12 m A 10m 8m 60 m 1. Find the mathematical equation that defines the shape of…
A: NOTE: Since we only answer up to 3 sub-parts, we’ll answer the first 3. Please resubmit the question…
Q: From the given beam: Determine the vertical reaction Ey at point E 12 kN 4 kN/m 2 kN/m 16 kN-m 8…
A:
Q: The gate in below figure is 1 m wide, is hinged at point B, and rests against a smooth wall at point…
A: Given data Specific weight Depth of emersion Width of gate
Q: For the three-hinged arch shown in the figure: 36.5 kN/m Hinge B 14.6 kN/m 10m. Determine the…
A:
Q: P.6.3 The three-pinned arch shown in Fig. P.6.3 is parabolic in shape. If the arch carries a uniform…
A: Given data:
Q: (Static Equilibrium) An 8-m long horizontal boom with a mass of 100 kg (w = 981 N) supports a 2000…
A:
Q: Find vertical reaction for the system shown in below, if bl=4 m ; b2=3 m; WI=8 kN/m; W2=4 kN/m 15 W1…
A: Consider the following diagram:
Q: 1-27. A 3-ft section of a masonry dam is shown in Fig. P 1-27. The resultant horizontal water…
A:
Q: 30 kN/ m A C 6 m 5 m
A:
Q: Two blocks A and B have a weight of 10 lb and 6 lb, respectively. They are resting on the incline…
A:
Q: w (kN/m) L (m) If L=12m and w-18 kN/m, calculate the vertical reaction at A, kN I Select] B, kN…
A:
Q: A two hinged semicircular arch of radius 25 m carries a load system as shown in figure. The…
A: Given arrangement, For two hinged semicircular arch of radius 25 m The horizontal thrust at each…
Q: 10 KN 5 m
A:
Q: Using area moment method, find the reactions of the structure. 75 kN - m 120 kN B 6 m 6 m
A:
Q: 45 h Oil 10 cm Hinge 80 cm Water C B F 40 cm Figure Q2 (b)
A:
Q: Determine the reaction components for the three hinged semi-circular arch shown. Solve for the…
A:
Q: Compute the reactions at supports for the following structures using slope- deflection equations. |…
A:
Q: 18 kN/m P. Q R M 3.35 m B. + 1m 1m 1 m 1 m 1 m 1 m 1 m 1 m 1m
A:
Q: Problem 6. The 1.2 m-diameter log with specific gravity of 0.8 is 3.0 m long into the paper. The log…
A: Given :
Q: Q.43 A bend in pipeline conveying water gradually reduces from 30 cm² to 10 cm2 and deflects the…
A: given and required diagram-
Q: 6 m B 1. Determine the mass of the heaviest cylinder that can be supported without exceeding a…
A:
Q: Q3/ the passage is 1.2 m wide normal to the paper. What will be the horizontal component of force…
A: Given: Water is flowing through a given passage as shown below, Width of passage normal to paper =…
Q: A1. A three hinged arch 60 m span has supports at unequal level as shown in the Figure. if the…
A: In 3 hinged parabolic arch, the equation of parabolic curve can be used to determine value of L as…
Q: For the semicircle arch of radius 6 m as shown in Figure Q2(a), analyse the reactions at supports A…
A: Hi! Thank you for the question As per the honor code, We’ll answer the first question since the…
Q: A three-hinged parabolic arch having a span of 20 m and a rise of 5 m carries a point load of 10 kN…
A: Given- span L=20 m, rise h=5 m, point load P=10 kN It is needed to find the resultant reaction at…
Q: A 4-m-long quarter-circular gate of radius 3 m and of negligible weight is hinged about its upper…
A: Determine the minimum spring force required to keep the gate closed when the water level rises to A…
Q: Determine the reaction at the smooth wall. The top of the 15-kg ladder is leaning against a very…
A:
Q: . Using the portal method, calculate for the magnitude of the moment reaction at support C. Express…
A:
Q: Water flows in the bend shown in figure at a rate of 5 m3/s, and the pressure at the inlet is 650…
A: To solve this problem, we will use Bernoulli equation. Therefore, we will calculate all the terms…
Q: Calculate the support reactions at A and B 2.2. Calculate the normal force, shear force and bending…
A:
Q: PROBLEM 5: A sector-shaped sluice gate having a radius of curvature of 5.4 m is as shown. The center…
A: Hydrostatic forces The force that results when a liquid under pressure acts on surfaces that are…
Q: A closed rectangular tank 4m long and 2.5m wide and 2m high is filled with water to a depth of 1.8m.…
A: Given- L= 4m , B = 2.5 m , H = 1.8 m F = 200 kN
Q: 3. A three-hinged parabolic arch of constant cross section is subjected to a uniformly distributed…
A:
Q: PROBLEM 5: A sector-shaped sluice gate having a radius of curvature of 5.4 m is as shown. The center…
A:
Q: Gate AB in the figure below is a 5-ft wide, vertical, rectangular gate, hinged at A and restrained…
A: Given: The width of the gate is 5 ft. The water depth is 9.5 ft. Consider the figure,
Q: Determine the funicular arch shape for the loading shown inFigure 2.4a if the horizontal reaction is…
A: Calculating the support reactions: ∑MA=0VB×30-15(20)-15(10)=0VB=15 Kips∑H=0HA-HB=20 Kips (given)
Q: A 60° bend occurs in a water pipeline that reduces from 600 mm diameter to 300 mm diameter at the…
A: Given data: Inlet diameter (di) = 600 mm Outlet diameter (do) = 300 mm Gauge pressure at the inlet =…
Q: 30 kN Find the reactions in datums A and B for the threshold shown in Figure 3. +10m+ 3.0m 2- Answer…
A:
Q: Two blocks (A and B) are colliding as shown below. Block A is 15kg and Block B is 10kg. Given that…
A:
Q: Problem I. In a road construction along the CaviteX expressway, a wedge of weight (W1 =552 N) is…
A:
Q: DETERMINE THE INTERNAL REACTIONS AT SECTION 1 WHICH IS 3 METERS UP THE INCLINE. 60 KN 20 kN/m + 4 m…
A:
Q: Determine the vertical reaction, in KN, at support A for the three hinged arch shown in the figure.…
A:
Q: Using Portal Method, find the reactions at A, B, C and D. Show your complete solution. K 9 kN 4 m G…
A:
Q: For the semicircle arch of radius 6 m as shown in Figure Q2(a), analyse the reactions at supports A…
A: Hi! Thank you for the question As per the honor code, We’ll answer the first question since the…
Q: A three hinged parabolic arc having a span of 20 m and a rise of 5 m carries a point load of 10 kN…
A:
Q: Piston A has a cross-section of 1,200 cm^2 while that of B is 800 cm^2. B is higher than A by 2 m.…
A:
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 3 images
- For the parabolic arch in Figure P6.17, plot the variation of the thrust T at support A for values of h = 12, 24, 36, 48, and 60 ft.Determine the reaction components for the three-hinged arch shown. The load consists of a uniformly distributed load of 15 kN/m.Two blocks A and B have a weight of 10 lb and 6 lb, respectively. They are resting on the incline for which the coefficients of static friction are μA = 0.15 and μB = 0.25. Determine the incline angle θ for which both blocks beginto slide. Also find the required stretch or compression in the connecting spring for this to occur. The spring has a stiffness of k = 2 lb/ft.
- The maximum force that holds the 4-m-width gate in Figure Q2 (b) close is 50 kN. If oil is being added steadily, determine the maximum h before the gate starts to open. SGoil = 0.86.Determine the Force Frequired to hold the bar AB in a horizontal position on the smooth inclines shown in figure below. Also determine the reactions at A and B 1.2m, 4.2m, 0.6m A 60 degrees and 45 degrees B 90Nthe inclined circular (D = 4.06 m) gate shown below retains a liquid with Sg = 3.35 on one side. the vertical distance from the liquid surface to the top of the gate, h, is 2.42 m. use 39 degrees. determine the hydrostatic force (kN0 acting on the gate.
- d. Total earth thrust (in kN per meter length of wall) Fa = e. Location of the total earth thrust from the base of wall (in meter) ya = ThanksThe power transmission cable weighs 10 lb/ft. If h = 10 ft, determine the resultant horizontal and vertical forces the cables exert on tower BD.The power transmission cable in the figure below weighs 165 N/m. Using the table below, write down the numerical value of w. If h= 2.5m, determine the resultant horizontal and vertical forces the cable exert on tower BD.
- A sector-shaped sluice gate having a radius of curvature of 5.4 m is as shown. The center of curvature C is 0.9m vertically below the lower edge A of the gate about which the gate is constructed to turn. If the water level is 2.4m above the lower edge of the gate (a) Determine the magnitude (in kN) and direction (R or L) of the horizontal component of the force acting on the curved gate AB. (b) Determine the magnitude (in kN) and direction (U or D) of the total vertical component of the force acting on the curved gate. Determine the magnitude of the total force (in kN) acting on the gate. Determine the angle that the total force acting on the gate makes with the horizontal.A 150-lb wrecking ball B is attached to a 40-ft-long steel cable AB and swings in the vertical arc shown. Determine the tension in lb f of the cable at the bottom D of the swing, where the speed of B is 13.2 ft / s .Study the arch below. Determine the total reaction at A, B and C.