- A water tank has the shape of a spherical segment volume of the tank can be computed from the follow
Q: Q1) A ductile hot-rolled steel bar has a minimum yield strength in tension and compression of Syr =…
A: step 1-
Q: The assembly shown in Figure No. 3 consists of a hollow steel [E = 200 GPa] tube (1) with an outside…
A:
Q: Q2) The figure shows a cantilever consisting of steel channel size 127 mm×64 mm. Using…
A: Answer We know that the Superposition principle says that the effect of combined loading is equal…
Q: In a consolidation test, the void ratio of the specimen which was 1.068 under the effective pressure…
A:
Q: Q Calculali the quarlity cement required in m² for of plooleving of mix a wall of 5x4m with 12 mm…
A: Given data- Dimensions of wall=5 m×4 mThickness of the plaster t=12 mm=0.012 mMix for the…
Q: Laboratory sieve analysis was carried out on a soil sample using a complete set of standard IS…
A: We will find D60 and D10.
Q: A helical spring is fabricated by wrapping a wire 20 mm in diameter around a forming cylinder 200 mm…
A: Solution-The given values are as foloows,Spring diameter=20mmCylin der…
Q: Determine the slope of the curve x2 + y2 – 6x + 10y + 5 = 0 at the point (1,0). 1/5
A:
Q: If the weight of the box is W, find the normal reaction force (N) on the block shown below (mass of…
A: Given data Mass of the object =5kg
Q: A road is being designed for a speed of 110 km/hr on a horizontal curve with a super elevation of…
A:
Q: PROBLEM NO. 3 For an inorganic soil, the following grain size analysis is given: U.S. Sieve No.…
A:
Q: Calculate Maximum Deflection for B2 Use E = 25 GPa Cross Section of B2 = 200x350 mm DL = 15.978 kN/m…
A:
Q: In a consolidation test, the void ratio of the specimen which was 1.068 under the effective pressure…
A: Given data, Initial void ratio eo = 1.068 Final void ratio ef = 0.994 Initial pressure = 214 kPa…
Q: Suppose that certain operation expenditures were expected to be (0) at the end of the first 3…
A: Given data, Gradient = $1000 Total duration = 4 years Total number of gradients n = 16 Interest rate…
Q: = 150 mm, d-370 mm, a 90 mm, and c= 35 mm. Section a-a is locate t section a-a, determine the…
A:
Q: The flow in a river is 2500O L/s per 2 m width and the silt factor is 1.2. The Lacey's scour depth…
A:
Q: A saturated specimen of cohesive soil was tested under drained conditions in a triaxial compression…
A:
Q: Two solid cylindrical rods AB and BC are welded together at B and loaded as shown. Determine the…
A:
Q: A cohesive soil yields a maximum dry density of 1.8 g/cc at an OMC of 16% during a Standard Proctor…
A:
Q: A canal is cut into a soil with a stratigraphy shown in figure. Assuming flow takes place laterally…
A:
Q: 8. Compute the AL and the Ad for each leg of the traverse shown below. Show the EL and the Ed as…
A:
Q: Ex. 4 The solid hom gencons 400 1b block A a hurizontal plane. The coefficint of Paction botuean the…
A:
Q: Determine the pressure difference (in kPa and answer should be a whole number) between the water…
A:
Q: SITUATION. For the cable carrying a uniformly distributed load as shown, determine: 40 m 2 m W = 10…
A:
Q: A car traveling with an initial velocity of 14 m/s accelerates at a constant rate of 2.5 m/s² for a…
A: Solution: Given: Initial velocity = 14 m/s Uniform acceleration = 2.5 m/s2 Time taken to travel = 3…
Q: 'Dvaw the shear and moment digvams- 12kNlm 3m
A: A simply supported beam with triangular load is given. We need to draw shear force diagram and…
Q: The maximum diameter that a capillary tube can have to ensure that a capillary rise of atleast 6 mm…
A: given-capillary rise h=6 mmsurface tension T=0.08 N/mdensity ρ=900 kg/m3
Q: Darcy's Law for ground water movement states that the velocities is proportional to * the hydraulic…
A:
Q: 41 A toll road with three toll booths has an arriva te of 850 veh/h and drivers take an average of…
A:
Q: Topic: Shear and Moment Diagram Solve 5 problems (following the conditions stated below) involving…
A: Given: Cantilever beam with uniformly distributed load. To find: shear force and bending moment…
Q: 2. A machine component 50 inches in length is tested with a load of I 00, 000 Ib. Considering an…
A: Given: Length, L = 50inch Applied load, P = 1*105 lb Allowable elongation, ΔL = 0.020inch Allowable…
Q: SITUATION. A beam has a width of 300 mm, overall depth of 600 mm and an effective depth of 520 mm.…
A: A stirrup is a closed loop of reinforcement bar that serves to keep the primary reinforcement bars…
Q: Q4- Determine the following properties for the gas given below at 542O psig and 257°F. - value of…
A:
Q: PROBLEM 2. A compound curve passes thru a common tangent AB having a length of 300m. The radius of…
A:
Q: Find all numbers d such that the average value of f (x) = 2 + 4x – 3x² on [0, d] is equal to 3. O 1…
A:
Q: Exercise 5: Draw the shear and bending diagrams for the simply supported beam. 10 kN 10 kN/m -3 m…
A:
Q: Water at 4°C enters a tank of diameter DT = 50.5 cm at a constant mass flow rate of min= 1.1 kg/s.…
A:
Q: SITUATION. For the cable carrying a uniformly distributed load as shown, determine: 40 m 2 m w = 10…
A: Given Data w =10 kN/mL = 40 mh= 2 m
Q: SITUATION. A square footing 2.4 m x 2.4 m x 0.45 m thick supports a rectangular column 0.35 mx 0.40…
A:
Q: Topic: Shear and Moment Diagram Solve 5 problems (following the conditions stated below) involving…
A:
Q: A continuous beam is loaded as shown in the figure below. Assuming a plastic moment capacity equal…
A:
Q: For formation of collapse mechanism in the following figure, the minimum value of P, is cM,/L. M, &…
A:
Q: If the allowa ble stresses are :- 150 mm Bt = 165Miu,'sc =100MPA, T=7014 Par determinet mex, value…
A:
Q: An earth embankment is to be constructed with compacted cohesionless soil. The volume of the…
A:
Q: A cohesive soil yields a maximum dry density of 1.8 g/cc at an OMC of 16% during a Standard Proctor…
A:
Q: A flat slab is supported on 600 mm dia circular columns spaced 8 m x 6 m apart in both directions.…
A:
Q: a stratigraphy shown in figure. Assuming flow takes place laterally and vertically through the sides…
A: Given data in question Permeability Depths To find out Ratio of horizontal to vertical…
Q: Use one of the Numerical method: Simple fixed-point iteration to find the maximum deflection and its…
A:
Q: Suggest some alternative form of transportation which improve the air quality. Describe briefly how…
A: There can be many alternatives to the conventional fossil fuel based transportation which improves…
Q: b 1- Shear failure occur when oz Oh > oy OH > Oy > oh Oy > OH > Ơh 5- Tensile Failure Vertical…
A: Brief concept introduction- Shear failure- It occurs when the shear stress developed in the…
Step by step
Solved in 2 steps with 2 images
- The plane shaded area given in the figure;a) Find the coordinates of the center of gravity (xG, yG) for the given axis set. (r2 = 5cm and the coordinates of the A point are A (15; 10) cm.)b) Calculate the volume of the object obtained by rotating the shaded area around the x-axis by 3600 using the Pappus-Guldinus theorem.vA typical differential manometer is attached to two sections A and B in a horizontal pipe through which water is flowing at a steady rate as shown in Figure 4. The deflection of mercury in the manometer is 0.60 m. Calculate the difference in pressure between sections Aand B. Take the densities of water and mercury as 1000 kg/m3 and 13570 kg/m3 respectively.The datum is shown in the image, and the figure is drawn to scale. Use the given distances to find any other necessary distances. If a piezometer is inserted at Point D, which is shown in the image, calculate how much the water will rise in it.
- Show the complete solution and the necessary graphs/diagrams. Use 2 decimal places in the final answer. The rotation of the 0.9-m arm OA about O is defined by the relation Eq. (1), where θ is expressed in radians and t in seconds. Collar B slides along the arm in such a way that its distance from O is Eq. (2), where r is expressed in meters and t in seconds. After the arm OA has rotated through 30°, determine the velocity of the collar (m/s).Solve in 20 minutes..1 will upvoteKindly give me right solution with clear calculations. For the function y = Sin(4.t) Where t is the time in seconds. What is the period of this sine-function?
- The water speed coming out on the pipe from a cylindrical tank shelter as in the image beside is (in the picture) known g = 9.81 m / s² H is the initial high water (m), l is the length of the pipe (M), t is the time passing. Determine the high H needed to produce water speed v = 5 m/s at t = 2.5 seconds for pipe length L = 4 m, calculate 1. BISECTION 2. False position for initial guess XL = 0 and XU = 2 m Calculate up to £ = 1%Show the complete solution and the necessary graphs/diagrams. Use 2 decimal places in the final answer. The rotation of the 0.9-m arm OA about O is defined by the relation Eq. (1), where θ is expressed in radians and t in seconds. Collar B slides along the arm in such a way that its distance from O is Eq. (2), where r is expressed in meters and t in seconds. After the arm OA has rotated through 30°, determine the acceleration of the collar (m/s^2).For the figure ,point A is (30 cm) below the surface of liquid , What is the pressure. * a_17.658 kpa b_17.658 kpa (vacume) c_176.58 kpa d_Option 4
- Show the complete solution and the necessary graphs/diagrams. Use 2 decimal places in the final answer. The rotation of the 0.9-m arm OA about O is defined by the relation Eq. (1), where θ is expressed in radians and t in seconds. Collar B slides along the arm in such a way that its distance from O is Eq. (2), where r is expressed in meters and t in seconds. After the arm OA has rotated through 30°, determine the relative acceleration of the collar with respect to the arm (m/s^2).The figure is an example of asymmetrical table and you need to: A. Solve the T max and T min of 10 meters distance from the lowest point to Joint A and B B. Solve the T max and T min of 15 meters distance from the lowest point to Joint A and B if they are all the sameFigure shows a slender uniform rod with mass M and length L. It might be a baton held by a twirler in a marching band (without the rubber end caps). (a) Use integration to compute its moment of inertia about an axis through O, at an arbitrary distance h from one end. (b) Initially the rod is at rest. It is given a constant angular acceleration of magnitude a around the axis through O. Find how much work is done on the rod in a time t. (c) At time t, what is the linear acceleration of the point on the rod farthest from the axis?