surveying
Q: Coarse aggregates from two stockpiles having coarse aggregate angularity (crushed faces) of 40% and…
A: Using equation X=P1x1+P2x2X=percent of crushed aggregate of blendP1,P2= proportion of…
Q: a traverse ABCDE the following bearings are observed ind out their included angles and check it.…
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Q: The bar shown has a circular cross-section with a 1.0 in. diameter. The material's shear modulus is…
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Q: Solve for the support reactions of the beam shown below using 3ME and SDM. Assume beam is prismatic…
A: Hi! Thank you for the question As per the honor code, We’ll answer the one of the question since the…
Q: A water main 160 cm dia. contains water at a pressure head of 200 m. Take weight of water to be 1000…
A: The given data is: Diameter=160 cm Pressure head=200 m Permissible stress=400 kg/cm2
Q: A sluice gate used to control the flow in a horizontal channel of unit width is shown in the figure.…
A: Given- No energy lossg=10 m/s2Discharge Q needs to be calculated.
Q: Shortages of building and construction materials, including cement, aggregates, steel, bricks and…
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Q: Q.87 An RCC slab (M 25 grade) of dimensions 5 mx 5 mx 0.15 m, is supported on four square columns (M…
A: Given- The case given in the question is shown below in the diagram-
Q: Draw the cross sections and compute V. Two level sections of 40-m stations with center heights of…
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Q: Water flows through a 90° bend in a horizontal plane as depicted in the figure. F₂ 90° y π P₁ A…
A: Given- Pressure at section 1-1 P1=140 kPaInlet dia d1=27π cmnozzle dia at section 2-2 d2=14π cmg=10…
Q: 12.6 Refer to Figure 12.10. For the retaining wall, H = 8 m, ' = 36°, a = 10°, y = 17 kN/m³, and c'…
A: Given :
Q: 25°, c' 12.7 Refer to Figure 12.10. Given: H = 7 m, y = 18 kN/m², ' c'= 12 kN/m² and a = 10°.…
A: Given :
Q: Situation 11: A transmission tower is subjected to the wind loads shown. 5 KN 7 kN 3 kN THEE pem 1.5…
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Q: Question 2 Refer to the given figure below. Given: a = 1.55 m b=1.11 m c=0.73 m Carbon…
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Q: K PLEASE ANSWER COMPLETELY WITH STEP BY STEP EXPLANATION 30° Use g = 9.807 m/s² = 32.17 ft/s² The…
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Q: 5. Given the beam AB as shown, find the force F2 and its moment arm, d. A d FA= 50 N F₂ 1.m. 15 N 80…
A: From given beam AB ; Consider all vertical forces acting = 0 So, ∑F = 0 -FA + F1 + F2 - F3 = 0 -50…
Q: (c) (i) The driver of a vehicle requires 15 m less to stop after he applies the brakes while…
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Q: A solid circular shaft of diameter 80mm is subjected to an axial stress of 30 MPa. It is further…
A: Given data Axial stress = 30 MPa Diameter of shaft (D) = 80 mm Torque (T) = 5 KNm
Q: PROBLEM 7:5 Find the shear stresses in the spar webs and skin of the section shown in the figure…
A: Shear Stress : Shear stress is a force which causes the deformation of a material, component or…
Q: Cold-formed steel is used for structural framing of floors, walls, and roofs as well as interior…
A: A technique of structural flooring framing made of cold-formed steel that is employed in the…
Q: A saturated soil has the following characteristics: Initial mass = 40.01 grams Final mass = 28.32…
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Q: A solid circular shaft of diameter 60mm is subjected to an axial stress of 20 MPa. It is further…
A: Given data: diameter = 60 mm Axial stress 20 MPa torque = 7 kN.m
Q: Design the concrete mix according to the following conditions:Design EnvironmentPavement slab,…
A: Mix design as per ACI:211 Assume 1% of the result is allowed to fall below the minimum compressive…
Q: List the fundamental steps involved in planning a static survey.
A: The accuracy criteria are among the most crucial factors to consider when designing a GPS/GNSS…
Q: A 3% ascending grade meets a descending grade at the vertex at station 2+050 and elevation 100m with…
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Q: 0 meters long is connected by tangents having a downgrade of 6.2% and upgrade 0f 4.2% intersecting…
A: Lowest point from C:x=g1g1-g2L
Q: VA1 6.345 m/s 60⁰ A B k = 100 N/m A 1-kg ball A strikes a 2-kg plate B that is supported by a…
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Q: . The following bearings of the lines observed for closed traverse BCDA. Correct the bearigs of…
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Q: Shockwave theory: Calculate the maximum queue length (Q in the below figure) given the current…
A: Queue: It is the difference between the total number of vehicles arrival and the total number of…
Q: Need complete solution. Need fast! The maximum and minimum dry densities of a sand were…
A: Formula used , Relative Density ,Id = (1/Yd min - 1/Yd ) /…
Q: The equivalent sound power level (in dB) of the four sources with the noise levels of 60 dB, 69 dB,…
A: given- noise levels-60 dB69 dB70 dB79 dB
Q: A 3% ascending grade meets a descending grade at the vertex at station 2+050 and elevation 100m with…
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Q: Situation 5: A cable AB shown supports a uniformly distributed load of 200 N/m. Determine the value…
A: Given data:
Q: Problem 1. The composite beam shown below carries a cantilevered load of 10 kN. The beam consists of…
A: Composite Beam : A composite beam is a beam which is constructed with more than one material in…
Q: An R.C. beam, 230 mm x four hundred mm is reinforced by using 16 mm diameter bars. If clear span is…
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Q: A 3% ascending grade meets a descending grade at the vertex at station 2+050 and elevation 100m with…
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Q: ches in di
A: Using equation :HL=flv22gdv=QA=2π45122
Q: In the beam shown, take P1 = 4 kN, P2 = 7 kN, and W1 = 5 kN/m. d) Determine the moment at X2
A: An overhang beam with a load combination of uniformly distributed load and point load is given . We…
Q: A wide variety of shapes can be produced by cold-forming and manufacturers have developed a wide…
A: A forging process called cold forming often referred to as the cold roll formation process, is being…
Q: A steady, two dimensional, incompressible flow field is represented by u = x + 3y + 3 and v = 2x - y…
A: Given- flow fields-u=x+3y+3v=2x-y-8
Q: A 30 ft long W12x65 column is braced at both ends about both axes. Also, it is contravened in the…
A: The given section is W12 X 65 Since the properties of W shape is given we don't need to refer it…
Q: For the s shown in Figure (3), find: 1.The reactions at A and supports. 2. The rotation at B. Bronze…
A: Given: Statically indeterminate shaft Length Diameter Modulus of rigidity To find: Support…
Q: Q5: Classify the soil with the data in table below using USCS to find the followings 1- group symbol…
A: H
Q: 12.8 Refer to Figure 12.12a. Given: H = 4 m, y = 16.5 kN/m², ' = 30°, c' = 0, and 3= 85°. Determine…
A: Given :
Q: Diámetro 250mm Flujo de entrada LO Diámetro110mm E 90 cm en fl 0, 26 (
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Q: Type of Portland Cement with composation mixuters.
A: The most widely used type of cement is Portland cement, which is used as a fundamental component of…
Q: ESALS per Vehicle 0.0007 Car 0.10 1.35 Delivery Truck Loaded 18-Wheeler 1.85 Loaded 40' Bus 5.11…
A: A)Data given:ESAL per vehicle for delivery truck = 0.10Assuming that the truck has two separate…
Q: The truss in the figure is loaded by four external forces as shown below. Knowing that P1= 3 kN,…
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Q: If the shear equation is V = Ax³ + Bx² + Cx + D, which among the following is/are true? (Right minus…
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Q: ID: BM Find CT the frequency of www ³k = 1 kN/m. Mpod = 2 kg I pod 2m the followin syste + 2 m₂lish=…
A: Frequency : Frequency is the repeating event or repeating occurrence per unit time. Frequency is the…
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- Given a crest curve with slopes p=+3.0% and q= -2.0%, Station of PI= 4+350 and elevation of PI =190.500m., if L =250m, determine the station and elevation of the PC and PT. Calculate the elevations at every 20m station for the length of the curve and locate the station and elevation of the highest point of the curve. Also plot the profile of the curve.The centerline of two parallel tracks are connected by a reversed curve. The angle of intersection of the first curve is 15 degrees and the distance between parallel tracks is 30m. If the radius of the second curve is 300m. a. Compute the length of the long chord from P.C. to P.T. ANS. 229.839m b. Compute the radius of the first curve. ANS. 580.432m please also include the drawing of the curveGrade of g1= -2.5% and g2=+1.5%, PVI elevation 2430.00 at station 315+00. Fixed elevation 2436.5 at station 314+00. Calculate the length of the curve.
- A horizontal curve with a deflection angle of 60o30' and degree of curvature of 5o as shown in Figure 5 is to be set out at whole station intervals of 100ft. If the point of curvature (PC) is located at a station 121+25.66, determine.i. the length of the curve and the station of PTii. the deflection angles VAp, VAq, VAv and VasA circular curve is to be set out by bearing and distance methods from two control points. During the design of the curve, the coordinates of the entry tangent point T and the bearing of the tangent length TI were obtained as follows: Bearing TI 110°17'16" T 1359.67 mE, 2165.44 mN. Calculate the coordinates of the points on the centre line of the curve at exact 25 m multiples of through chainage.Provide complete solution and illustration. The bearings of backward and forward tangents are S 65°30’ E and N 75°40’ E, respectively. If the degree of curve is 8° for a full station of 20m and the stationing of the vertex is 5+005.25m, using arc basis determine the: a. Elements of the simple curveb. Station of P.C. and P.T.c. Offset from tangent distance to the 4th station and its distance along the tangent from P.C.d. Offset from the Long chord to the 5th station and its distance along the Long chord from P.C.
- Two tangents having an azimuth of 235° and 277° meet at station 30+28.212 are connected by a 330ft spiral curvewith a 5° circular curve used for light rail transit.a) Determine the difference between the external distance of the spiral and the central curve.b) Determine the minimum super-elevation of the curve at the two-thirds of the spiral with the railway width of 15ft. If g= 32.2 ft/s^2c) Determine the stationing of the S.T.Given the compound curve with the vertex V inaccessible, angles A and B are equal to 16°20’ and 13°30’, respectively. Stationing at B is at 1+125. 92m. Degrees of curve are 3°30’ and 4°00’ for the first and second curve, respectively. It is desired to substitute the compound curve with a simple curve that shall be tangent to the two tangents, TA and TB, and as well as the common tangent TAB. -Include illustrations -Determine the radius of the simple curve and the station the New P.C. and the old P.T.Two tangents BC and CD intersect at an angle of 34° are to be connected with a simple curve. A point P on the curve is located 22.03m from point C and has a perpendicular distance of 2.89m from line BC. Calculate: The radius of the simple curve The length of chord connecting P.C. and point P. The stationing of P if vertex of the curve is at 10+100m.
- Two straights having a total deflection angle of 8°24' are connected with a circular curve. The station of the point of intersection is 63+56.65 and terrain conditions require the minimum radius permitted by the specifications of 2798.15 ft. (arc definition). Find the stationing of PC and PT and the external and middle ordinate distances of this curveStationing of P.T. of a compound curve is at 15 + 480.14. I1 = 30°, I2=36°, D1 = 4° and D2 = 5°. What is the length of curve of the second curve? Use arc basisThe perpendicular offset of the PT of a simple curve is 120.20m. If the angle ofintersection is 50֯, determine the length of the long chord.