Calculate the minimum depth required for Beam 2 knowing that the beam has a width of...

The width of a rectangular beam is 250 mm and the effective depth is 317 mm....

The width of a rectangular beam is 250 mm and the effective depth is 317 mm. The tensile reinforcement is provided by 3 bars of 16 mm. Determine the moment of resistance of the section as per limit state method. Extracts of BS8110 grades: Concrete 25 KN Fcu =40 N/mm2 Fy=fyv=460 N/mm2

An unstiffened beam of equal flange has flange width 171 mm and total depth 352 mm....

An unstiffened beam of equal flange has flange width 171 mm and total depth 352 mm. thickness of flange 9.7mm and thickness of web 6.9mm. Check to see whether it meets the condition for minimum web thickness. Assuming fy = 320 MPa calculate the nominal shear yield capacity of the web Vw. Modulus of elasticity = 200 x 103 N/mm2.                                                  

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m...

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m long. It carries a uniformly distributed load of 20 kN/m over the whole beam and a point load of 40 kN at the center of the beam. Compute the maximum deflection if the maximum slope produced in the beam is 2× ??-3 radian.

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m...

2. A simply supported beam has a width of 200mm and depth of 400mm is 4m long. It carries a uniformly distributed load of 20 kN/m over the whole beam and a point load of 40 kN at the center of the beam. Compute the maximum deflection if the maximum slope produced in the beam is 2× ??-3 radian. (6 M Blease i want prompt clear solution for this question in detail,.

. A simply supported beam has a width of 200mm and depth of 400mm is 4m...

. A simply supported beam has a width of 200mm and depth of 400mm is 4m long. It carries a uniformly distributed load of 20 kN/m over the whole beam and a point load of 40 kN at the center of the beam. Compute the maximum deflection if the maximum slope produced in the beam is 2× ??-3 radian.

A simply supported beam is 3 m long. It carries a uniformly distributed load of 6...

A simply supported beam is 3 m long. It carries a uniformly distributed load of 6 kN/m throughout its span and a concentrated load of 15 kN at a point 2 m from the left support. Assuming that the beam has a rectangular shape whose width and depth are 150 mm and 250 mm, respectively. Determine the maximum flexural stress in MPa developed in the beam.

2. A perennial stream has the following properties: discharge Q = 1000 ft3/s, bottom width b...

2. A perennial stream has the following properties: discharge Q = 1000 ft3/s, bottom width b = 150 ft, side slope z = 2, bottom slope So = 0.00038, and Manning's n = 0.035. A 6-ft high diversion dam is planned on the stream to raise the head for an irrigation canal.  Calculate the normal depth.  Calculate the total length of the M1 water-surface profile. Use n = 400 and m = 400.  Calculate the partial length...

In parts (1) and (2), calculate the minimum uncertainty in the momentum for the objects described....

In parts (1) and (2), calculate the minimum uncertainty in the momentum for the objects described. Refer to Heisenberg's Uncertainty Principle in your textbook. A child runs through a door having a width of 0.79 m. Δpchild = A proton passes through a slit that has a width of 7 x 10-10 m. Δpproton = A car of mass 1170 kg travels at 20 m/s (45 mph). Assume that the velocity measurement is known to within 1 % on either...

1. (25pts) This problem has two parts (1A and 1B). (1A). (10 pts) Calculate the uniform...

1. (25pts) This problem has two parts (1A and 1B). (1A). (10 pts) Calculate the uniform flowrate for an earth-lined (n = 0.02) trapezoidal canal flowing at a water depth of 2.0 m. The canal is constructed on a slope of 0.0001; its bottom width is 5 m and side slope is 2:1 (H:V). (1B) (15 pts) It has been found that this structure doesn’t have the optimum hydraulic design for the given side slope. What dimensions are required to...

... 00 E H.W 1. Design concrete mix according to ACI with volumetric equation, and calculate...

... 00 E H.W 1. Design concrete mix according to ACI with volumetric equation, and calculate the quantities of concrete ingredients for a slab and 5 bored piles (Show your results in a Table). Average compressive strength required at 28 days = 35 N / mm 'with Slump is (75-100). Dry rodded mass of coarse aggregate is 1600kg / m3. Fineness modulus of fine aggregate is 2.9. the concrete will be exposed to mild waves of freezing and thawing. The...