The rigid beam is supported at its ends by two A-36 steel tie rods. (Figure 1) The rods have diameters dAB=0.52 in.dAB=0.52 in. and dCD=0.34 in.dCD=0.34 in. The allowable stress for the steel is σallow=15 ksi
Determine the largest intensity of the distributed load ww and its length xx on the beam so that the beam remains in the horizontal position when it is loaded.
Express your answers, separated by a comma, to three significant figures.
Homework Answers
Add Answer to:
The rigid beam is supported at its ends by two A-36 steel tie
rods. (Figure 1)...
Problem 1: The rigid beam is supported by a pin at C and an A-36 steel...
Problem 1: The rigid beam is supported by a pin at C and an A-36 steel wire AB. If the wire has a diameter of 0.2 in., determine how much it stretches when a distributed load of w= 100lb/ft acts on the beam. The material remains elastic. (E = 29(10") ksi or 200 GPa) St 5ft с 30° B w 10 ft
QUESTION 2 The rigid bar ABCD is pinned at B and supported by two rods, an...
QUESTION 2 The rigid bar ABCD is pinned at B and supported by two rods, an aluminum rod AE and a steel rod CF. Details are given below. aluminum rod AE - E = 10600 ksi L = 24 in d = 0.5 in Om = 40 ksi f-12inte-911-06 All of -15 a STEEL steel rod CF ALMINUM E = L = d = om.x = 30,000 ksi 18 in 0.75 in 50 ksi (a) Determine the maximum force P...
Problem 4.49 The rigid bar in (Figure 1) is pinned at A and supported by two...
Problem 4.49 The rigid bar in (Figure 1) is pinned at A and supported by two aluminum rods, each having a diameter of 1.1 in., a modulus of elasticity Eal 10(103) ksi, and yield stress of (oy),1-38 ksi. Part A If the bar is initially vertical, determine the displacement of the end B when the force of 20 kip is applied Express your answer to three significant figures and include appropriate units. 6 0063 Figure < 1011 20 kip Submit...
the beam shown is supported by two rods. the rods have diameters dab = 9 mm...
the beam shown is supported by two rods. the rods have diameters dab = 9 mm and dcD = 13 mm determine the force in rod CD so that the beam remains in the horizontal position when it is loaded. let the maximum stress in rod AB is OAB = 120 MPa D 3 m w 10 kN/m с 4 m Select one: O a. 11.96 kN O b. 15.93 kN O c. 3.659 KN O d. 7.634 KN if...
Beam AB is supported as shown in the figure. Tie rod (1) is attached at B...
Beam AB is supported as shown in the figure. Tie rod (1) is attached at B and C with double shear pin connections, while the pin at A is attached with a single shear connection. The pins at A, B, and C each have an ultimate shear strength of 52 ksi, and tie rod (1) has a yield strength of 30 ksi. A concentrated load of P 26 kips the beam as shown. A factor safety of 2.5 required for...
The rigid bar in (Figure 1) is pinned at A and supported by two aluminum rods
The rigid bar in (Figure 1) is pinned at A and supported by two aluminum rods, each having a diameter of 1.2 in. and a modulus of elasticity Eal = 10(103) ksi. Part A If the bar is initially vertical, determine the displacement of the end B when the force of 2 kip is applied.
The rigid beam BD is supported by a smooth pin B, two circular rods at points...
The rigid beam BD is supported by a smooth pin B, two circular rods at points C and D and is subjected to two concentrated loads as illustrated below. Neglect the weight of the rigid beam and assume that when W= 0 the rigid beam is in the horizontal position and the rods are stress-free. Assume small rotations 2) (1 Assume that h 119 mm and b 112 mm Use the compatibility equations (geometry of deformation) to obtain the ratio...
The rigid beam in (Figure 1) is supported by the three suspender bars. Bars AB and EF are made of aluminum and bar CD is made of steel.
The rigid beam in (Figure 1) is supported by the three suspender bars. Bars AB and EF are made of aluminum and bar CD is made of steel. Part A If each bar has a cross-sectional area of \(480 \mathrm{~mm}^{2}\), determine the maximum value of \(P\) if the allowable stress is \(\left(\sigma_{\text {allow }}\right)_{\text {st }}-190 \mathrm{MPa}\) far the steel and \(\left(\sigma_{\text {allow }}\right)_{\text {al }}-150 \mathrm{MPa}\) for the aluminum. \(E_{\text {st }}-200 \mathrm{GPa}, E_{\text {al }}-70 \mathrm{GPa}\).
2) The beam shown is supported by steel member BC as shown. Due to the forked ends on the member, consider the supports...
2) The beam shown is supported by steel member BC as shown. Due to the forked ends on the member, consider the supports at B and C to act as pins for x-x axis buckling and as fixed supports for y-y axis buckling. Member BC is made of A992 steel with a modulus of elasticity of 29,000 ksi and a yield strength of 50 ksi. a) Calculate the maximum allowable load, P, on the system (in kips) considering buckling and...
A simply supported beam loaded by two forces is shown in the figure. Select a pair...
A simply supported beam loaded by two forces is shown in the figure. Select a pair of structural steel channels mounted back to back to support the loads in such a way that the deflection at midspan will not exceed 1/2 in and the maximum stress will not exceed 15 kpsi. Use superposition. In the figure, F1 = 450 lbf and F2 = 300 lbf. Use Table A-7 to select the smallest Imperial units channel that meets the requirements, where...
Problem 1: The rigid beam is supported by a pin at C and an A-36 steel wire AB. If the wire has a diameter of 0.2 in., determine how much it stretches when a distributed load of w= 100lb/ft acts on the beam. The material remains elastic. (E = 29(10") ksi or 200 GPa) St 5ft с 30° B w 10 ft
QUESTION 2 The rigid bar ABCD is pinned at B and supported by two rods, an aluminum rod AE and a steel rod CF. Details are given below. aluminum rod AE - E = 10600 ksi L = 24 in d = 0.5 in Om = 40 ksi f-12inte-911-06 All of -15 a STEEL steel rod CF ALMINUM E = L = d = om.x = 30,000 ksi 18 in 0.75 in 50 ksi (a) Determine the maximum force P...
Problem 4.49 The rigid bar in (Figure 1) is pinned at A and supported by two aluminum rods, each having a diameter of 1.1 in., a modulus of elasticity Eal 10(103) ksi, and yield stress of (oy),1-38 ksi. Part A If the bar is initially vertical, determine the displacement of the end B when the force of 20 kip is applied Express your answer to three significant figures and include appropriate units. 6 0063 Figure < 1011 20 kip Submit...
the beam shown is supported by two rods. the rods have diameters dab = 9 mm and dcD = 13 mm determine the force in rod CD so that the beam remains in the horizontal position when it is loaded. let the maximum stress in rod AB is OAB = 120 MPa D 3 m w 10 kN/m с 4 m Select one: O a. 11.96 kN O b. 15.93 kN O c. 3.659 KN O d. 7.634 KN if...
Beam AB is supported as shown in the figure. Tie rod (1) is attached at B and C with double shear pin connections, while the pin at A is attached with a single shear connection. The pins at A, B, and C each have an ultimate shear strength of 52 ksi, and tie rod (1) has a yield strength of 30 ksi. A concentrated load of P 26 kips the beam as shown. A factor safety of 2.5 required for...
The rigid beam BD is supported by a smooth pin B, two circular rods at points C and D and is subjected to two concentrated loads as illustrated below. Neglect the weight of the rigid beam and assume that when W= 0 the rigid beam is in the horizontal position and the rods are stress-free. Assume small rotations 2) (1 Assume that h 119 mm and b 112 mm Use the compatibility equations (geometry of deformation) to obtain the ratio...
2) The beam shown is supported by steel member BC as shown. Due to the forked ends on the member, consider the supports at B and C to act as pins for x-x axis buckling and as fixed supports for y-y axis buckling. Member BC is made of A992 steel with a modulus of elasticity of 29,000 ksi and a yield strength of 50 ksi. a) Calculate the maximum allowable load, P, on the system (in kips) considering buckling and...
A simply supported beam loaded by two forces is shown in the figure. Select a pair of structural steel channels mounted back to back to support the loads in such a way that the deflection at midspan will not exceed 1/2 in and the maximum stress will not exceed 15 kpsi. Use superposition. In the figure, F1 = 450 lbf and F2 = 300 lbf. Use Table A-7 to select the smallest Imperial units channel that meets the requirements, where...
Most questions answered within 3 hours.
-
Why are polymers not typically casted into products?
asked 15 minutes ago -
When rolling a die 129 times, what is the probability of rolling
a 6 no more...
asked 31 minutes ago -
4. A call option currently sells for $7.75. It has a strike
price of $85 and...
asked 20 minutes ago -
1.
You need to prepare 10.0 liters of an acid aqueous solution with a
pH of...
asked 23 minutes ago -
Along an aggregate supply curve, if the level of output is less
than the natural level...
asked 24 minutes ago -
By 2025, annual consumption in emerging markets will total $30
trillion and contribute more than ________...
asked 29 minutes ago -
At what point does reformation cease to be a viable option for
those who are oppressed...
asked 33 minutes ago -
Place letters corresponding to amounts in the proper order for
lightest to heaviest samples:
a) 2100...
asked 37 minutes ago -
Consider the multicore processor with 6 heterogeneous cores
labelled C1, C2, C3, C4, C5, and C6....
asked 39 minutes ago -
Document system components according to standards and procedures
(Implement and hand over system components) IT administrative
asked 40 minutes ago -
The college asked 700 students if they wanted a longer spring
break and 600 students said...
asked 39 minutes ago -
Determine the temperature (in Celsius) at which 1.00 mole of an
ideal gas will have a...
asked 1 hour ago