Given fy = 60000 psi f'c = 5000 psi in a singly reinforced concrete beam. a)...

In a reinforced concrete beam , The value of internal stresses at neutral axis is :...

In a reinforced concrete beam , The value of internal stresses at neutral axis is : Select one : a . B1 * 0.85 * f'c b . E * e c . ZERO d . 0.85 f'c

Knowing that the reinforced concrete beam cross section effective depth is d = 310 mm and...

Knowing that the reinforced concrete beam cross section effective depth is d = 310 mm and the properties of materials used are f'c = 28 MPa and fy = 420MPa and the external ultimate bending moment Mu = 254 KN.m with strain in tension steel reinforcement equal to 0.005 . The width of the beam is Select one : a . 511 b . 385 c . 460 mm d . 640

A fully grouted reinforced concrete masonry wall, composed of 8 inch (7.63 in. effective) thick hollow...

A fully grouted reinforced concrete masonry wall, composed of 8 inch (7.63 in. effective) thick hollow concrete masonry units laid out in full bedding is reinforced with #6 (Ab = 0.44 in2 ) Grade 60 bars (fy = 60,000 psi) at 25 inches on center. Find the wall load capacity for pure compression and pure flexure conditions. The compressive strength of the masonry, f’m, is 2000 psi.

A simply supported rectangular concrete beam is 18 in. wide and has an effective depth of...

A simply supported rectangular concrete beam is 18 in. wide and has an effective depth of 32 in. The beam supports a factored load (wu) of 15 kips/ft. on a clear span of 22 ft. The given load includes the weight of the beam. Use f'c = 4,000 psi. and fy = 60,000 psi. Over what length of span are stirrups required? Group of answer choices 8.35 ft. 9.18 ft. 10.26 ft. Stirrups are not required for this beam. None...

A simply supported rectangular concrete beam is 18 in. wide and has an effective depth of...

A simply supported rectangular concrete beam is 18 in. wide and has an effective depth of 32 in. The beam supports a factored load (wu) of 15 kips/ft. on a clear span of 22 ft. The given load includes the weight of the beam. Use f'c = 4,000 psi. and fy = 60,000 psi. What is the un-rounded stirrup spacing requirement at the critical section? Group of answer choices 3.23 in. 3.63 in. 4.04 in. 4.50 in. None of the...

Problem 1 A simply supported reinforced concrete beam has a width (b) of 14 inches, and...

Problem 1 A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective depth (d) of 24 inches. It is reinforced with 3 # 8 bars. Assume 60-ksi steel and 3000-psi concrete. Determine the resisting moment (Mr) in ft-k that this beam can safely sustain.

A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective...

A simply supported reinforced concrete beam has a width (b) of 14 inches, and an effective depth (d) of 24 inches. It is reinforced with 3 # 8 bars. Assume 60-ksi steel and 3000-psi concrete. Determine the resisting moment (Mr) in ft-k that this beam can safely sustain. Problem 2 The beam given in Problem 1 has a span of 21 ft. It is supposed to carry a uniformly distributed service dead load of 3.7 k/ft, in addition to its...

Design shear reinforcement for a singly reinforced beam of 250 mm wide and 450 mm effective...

Design shear reinforcement for a singly reinforced beam of 250 mm wide and 450 mm effective depth. The beam is reinforced with 4 no., 20 mm dia. bars on tension side. The factored shear force at critical section is 50 kN. Assume 8 mm diameter 2 legged vertical stirrups. Use M30 concrete and Fe415 steel

Design a rectangular reinforced concrete beam for Mu = 550 k-ft (not including self-weight). Use f’c...

Design a rectangular reinforced concrete beam for Mu = 550 k-ft (not including self-weight). Use f’c = 4000 psi and fy = 60,000 psi. Use a design ρ = 0.01. Using the method of bd2, and choosing a width b no smaller than 15 inches and no larger than 18 inches, design a beam to resist the moment. Save room for #3 stirrups. Report your final design and draw the cross-section labeling all dimensions and showing the rebar layout and...

A simply supported reinforced-concrete beam has to resist a maximum factored moment of M* = 210...

A simply supported reinforced-concrete beam has to resist a maximum factored moment of M* = 210 KN-m. Given that f’c = 32 MPa, fy = 500 MPa and that the maximum possible width for the beam is 240 mm: a. Establish an appropriate structural depth ‘d’ for the beam b. Determine the total depth ‘D’ of the beam for a FRL of 90 minutes c. Find the area of steel Ast required to resist the moment and select the rebars....