The beam is supported by a pin at C and by a short link AB. Each pin has a diameter of 14 mm. Assume L = 0.9 m and 8 = 35°. If the average shear stress in the pins at A, B, and C cannot exceed 105 MPa, determine the maximum distributed load wmax that can be supported by the structure. (1) B L

The beam is supported by a pin at C and by a short link AB. Each pin has a diameter of 14 mm. Assume L = 0.9 m and 8 = 35°. If the average shear stress in the pins at A, B, and C cannot exceed 105 MPa, determine the maximum distributed load wmax that can be supported by the structure. (1) B L

Mechanics of Materials (MindTap Course List)

9th Edition

ISBN:9781337093347

Author:Barry J. Goodno, James M. Gere

Publisher:Barry J. Goodno, James M. Gere

Chapter11: Columns

Section: Chapter Questions

Problem 11.6.1P: A steel bar has a square cross section of width b = 2.0 in. (sec figure). The bar has pinned...

See similar textbooks

Related questions

Q: 0.185 kg golf club swings and hits a 0.045 kg ball. You are able to hit the ball in the elastic…

Q: 7. A wave moving at 5.5 m/s passes into a new medium and its wavelength increases to one-and-a-half…

Q: The G string on a guitar is 49 cm long and has a fundamental frequency of 196 Hz. A guitarist can…

Q: The allowed energies of a quantum system are 0.0 eV, 6.0 eV, and 9.5 eV What wavelengths appear in…

Q: Light of wavelength 620 nm is incident on a slit having a width of 0.18 mm. The viewing screen is…

A: Given datawavelength of the light beam The slit width The screen distance .

Q: The drawing shows three objects. They are connected by strings that pass over massless and…

Q: 3- A man pulls a door with a force of 34 from a point 0.50m away from the axis of rotation of the…

Q: Steam at 100°C is used to warm 350 g of water contained in a 300 g aluminum container. The initial…

A: Temperature of steam: Mass of water in Aluminium container: Mass of Aluminium container: Initial…

Q: The same force that gives the standard 1 kg mass an acceleration of 1.00 m/s2 acts first on body A,…

A: Acceleration of m1= 1Kg mass is a1=1.00 m/s2 Acceleration of mass mA is aA =0.420 m/s2 Acceleration…

Q: A soccer player receives a pass that is moving at a velocity of 10 m/s. It takes them 0.2 seconds to…

A: Note: The direction towards the player is taken as negative and the direction away from the player…

Q: energy supplied to an incandescent light bulb converts into light energy Assuming the average…

Q: Learning Goal: To practice Problem-Solving Strategy 4.1 for projectile motion problems. A rock…

A: Learning Goal:To practice Problem-Solving Strategy 4.1 for projectile motion problems.A rock thrown…

Q: (iii) A plane EM wave's electric field amplitude is 8.0 N/C and its wavelength is 575 nm. Its…

A: Electric field amplitude (E)=8.0 N/CWavelength(λ)=575 nm

Q: Plot the graph of n₁sin (0₁) vs sin (0₂). Perform regression analysis and determine the equation of…

Q: ball is thrown straight up with an initial velocity of 40 m/s, so that its height (in meters) after…

Q: ni The above diagram indicates n₁ n₁ > n3 n₂ On₁ > n₂> n3 n3

A: Snell's law, also known as Snell-Descartes law, describes the behavior of light rays as they pass…

Q: What is the maximum velocity of electrons ejected from a material by 61 nm photons, if they are…

Q: . Two loudspeakers in a 20 °C room emit 686 Hz sound waves along the x-axis. What is the smallest…

Q: A child is walking along the sidewalk at a constant speed of 1 m/s while pulling his dog sitting in…

A: Speed of Child (v) = Mass of Dog (m) = 30 kgWeight of Wagon Force (F) = 60 NAngle

Q: Question 10.5: A 50 kg girl wearing high heel shoes balances on a single heel. The heel is circular…

A: Mass of girl m = 50 kg.Circular radius r = 1 cm = 0.01 m.

Q: A hydraulic automobile lift is designed to lift cars with a maximum mass of 3000 kg. The area of…

A: The maximum mass of the car that can be lifted m = 3000 kg.Area of the cross section load carrying…

Q: A hanging planter with a mass of 9 kg is suspended from a beam in a pergola by two lengths of rope…

Q: At a picnic, there is a contest in which hoses are used to shoot water at a beach ball from three…

A: See below

Q: A source of sound of frequency 1200 Hz is moving away from a listener at speed v. The listener is at…

Q: A 6.2 m^3 object floats in water with 46% of its volume above the waterline. What is the force the…

A: Volume of object is Object floats in the water with of its volume above the waterline.Density of…

Q: A straight conducting rod carries an electric charge of 5.49 nC. The rod is represented by a…

Q: A solid metal sphere of radius 3.50 m carries a total charge of -6.10 μC . Need help with part F…

Q: Determine the applied force required to accelerate a 2.44- kg object rightward with a constant…

A: See below

Q: A closed surface is constructed in the space between two large parallel metal plates, where there is…

A: Magnitude of electric field,Area increment ,Then,The electric flow through any surface is denoted…

Q: The rms speed of molecules in a gas is 620 m/s. Part A What will be the rms speed if the gas…

Q: How does the application of quantum mechanics principles explain the phenomenon of…

A: The question asks for an o explanation of how the principles of quantum mechanics explain the…

Q: The rms speed of the molecules in 1.2 g of hydrogen gas is 1800 m/s.

Q: A photon collides with an electron, and is scattered in a direction 90.0∘ from its original…

A: Given Data:Angle The photon loses 28.0% of its momentum.To Determine:The photon's initial…

Q: Atoms can be "cooled" to incredibly low temperatures by letting them interact with a laser beam.…

Q: 4. As a light ray travels from vacuum (n = 1) to a medium where refractive index gradually…

A: As a light ray travels from vacuum to a medium where the refractive index gradually increases, the…

Q: Monochromatic light from a laser shines onto a gold surface and produces photoelectrons with maximum…

A: Given data:

Q: a.) Draw a simple version of the human eye looking at the sun (never look at the sun yourself!),…

Q: A uniform magnetic field B, with magnitude 1.2 Tesla, is directed vertically upward throughout the…

Q: 4. A tennis ball falling straight downwards hits the floor. At the time of interest, the ball is…

A: Given Data:Mass of the tennis ball Radius of the tennis ball To Determine:(a). The direction of…

Q: Determine the escape velocity in Nereid in Neptune, which has radius of 170 km and g=0.071 m/s^2.…

Q: but my question is when the foru of them are together, not seperate as a pair

A: See below

Q: The molar heat capacities of gases are not perfectly constant, as we've assumed, but increase slowly…

A: Write the expression for the number of moles and substitute the corresponding values.

Q: A 2.51 kg ball of clay is traveling straight north with a speed of 24.0 m/s, collides with a 3.55 kg…

Q: The equation of a wave is given by y=4sin[0.5π(x-3t)] where x and y are given in meters and t in…

Q: A source of sound is moving at 10 m/s towards a stationary listener while producing a 1000 Hz pure…

Q: A frequency of 50 Hz and a frequency of 62 Hz is combined. What is the frequency of the combination?…

A: Given Data:Frequency 1 Frequency 2 To Determine:The frequency of the combination.

Q: 1. Two moles of a monatomic ideal gas such as helium is compressed adiabatically and reversibly from…

Q: A metal wire is bent to the shape of a circular arc as shown in the figure. The arc is centered…

A: As it is clear that the wire is bent in the shape of a arc of a circle of radius 8cm .The length of…

Q: Give atleast the 3 uses of how sound wave is used in technologies in details. (Provide a drawing on…

A: SONAR Technology : this technology stands for sound navigation and ranging. it is used to measure…

Q: Calculate the density of a solid substance if a cube measuring 2.07 cm on one side has a mass of 115…

A: Part(a): One side of cube is Mass of cube is Find:Density of cube.Part(b): One side of cube is…

Concept explainers

Mechanical Properties of Solids

There are three types of matter- solid, liquid and gas. Out of them, solids have a rigid shaped and size. The intermolecular forces of attractions in solids are greatest. Mechanical properties are the physical properties of a material which it shows, when it is provided with certain amount of force or load. These properties are to be kept in mind for various purposes. When a force is applied to an object, the object may or may not get deformed depending upon its elastic property. But every time the object develops a restoring force against the force applied. This is commonly known as stress. If the object changes its dimensions due to the force applied it develops strain ( which is the ratio of change in dimension to the original dimension).

Question

Please find what is being asked and box your final answer.

The beam is supported by a pin at C and by a short link AB. Each pin has a diameter of 14 mm. Assume L = 0.9 m and 8 = 35°. If the
average shear stress in the pins at A, B, and C cannot exceed 105 MPa, determine the maximum distributed load Wmax that can be
supported by the structure.
(1)
0
Answer: Wmax=
i
B
W
L
kN/m

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Given data :

VIEW

Step 2: Calculation :

VIEW

Step 3: Calculation :

VIEW

Solution

VIEW

Step by step

Solved in 4 steps with 6 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

A vertical pole consisting of a circular tube of outer diameter 5 in. and inner diameter 4.5 in. is loaded by a linearly varying distributed force with maximum intensity of q0, Find the maximum shear stress in the pole.
A pole is fixed at the base and is subjected to a linearly varying distributed force with maximum intensity of q0and an axial compressive load P = 20 kips at the top (see figure). The pole has a circular cross section with an outer diameter of 5 in. and an inner diameter of 4.5 in. Find the normal stresses on the surface of the pole at the base at locations A and B.
A spherical balloon with an outer diameter of 500 mm and thickness 0.3 mm is filled with a gas. Calculate maximum permissible pressure in the balloon if the allowable normal strain at the outer surface of the balloon is O.h Assume E = 4 MPa and v = 0,45.
A flying but tress transmit s a load P = 25 kN, acting at an angle of 60º to the horizontal, to the top of a vertical buttress AB (see figure). The vertical buttress has height h = 5.0 m and rectangular cross section of thickness t = 1.5 m and width b = 1.0 m (perpendicular to the plane of the figure). The stone used in the construction weighs y = 26 kN/m3. What is the required weight W of the pedestal and statue above the vertical buttress (that is, above section A) to avoid any tensile stresses in the vertical buttress?
A plain concrete wall (i.e., a wall with no steel reinforcement) rests on a secure foundation and serves as a small dam on a creek (see figure). The height of the wall is h = 6.0 ft and the thickness of the wall is t = 1.0 ft. Determine the maximum tensile and compressive stresses o*!and trt, respectively, at the base of the wall when the water level reaches the top {d = h). Assume plain concrete has weight density ye= 145 lb/ft . Determine the maximum permissible depth dnuxof the water if there is to be no tension in the concrete.
A tie-down on the deck of a sailboat consists of a bent bar boiled at both ends, as shown in the figure. The diameter dBof the bar is 1/4 in., the diameter D Wof the washers is 7/8 in., and the thickness is of the fiberglass deck is 3/8 in. If the allowable shear stress in the fiberglass is 300 psi, and the allowable bearing pressure between the washer and the fiberglass is 550 psi, what is the allowable load P allowon the tie-down?
A circular pole is subjected to linearly varying distributed force with maximum intensity t0. Calculate the diameter daof the pole if the maximum allowable shear stress for the pole is 75 M Pa.
Determine the allowable axial load Pallowfor a steel pipe column that is fixed at the base and free at the top (see figure) for each of the following lengths: L = 2,6 m, 2.8 m, 3.0 m, and 3.2 m. The column has an outside diameter d = 140 mm and wall thickness t = 7 mm, (Assumed = 200 GPa and ( y= 250 MPa.)
Determine the maximum permissible length Lmaxfor a steel pipe column that is fixed at the base and free at the top and must support an axial load P = 500 kN (see figure). The column has an outside diameter d = 200 mm, wall thickness; = 10 mm, E = 200 GPa, and y = 250 MPa.
AW310 × 74 wide-flange steel column with length L = 3.8 m is fixed at the base and free at the top (see figure). The load P acting on the column is intended to be centrally applied, but because of unavoidable discrepancies in construction, an eccentricity ratio of 0.25 is specified. Also, the following data are supplied: E = 200 GPa, y = 290 MPa, and P = 310 kN. What is the maximum compressive stress max in the column? What is the factor of safety n with respect to yielding of the steel?
A steel column (E = 30 x 103 ksi) with pinned ends is constructed of a W10 x 60 wide-flange shape (sec figure). The column is 24 ft long. The resultant of the axial loads acting on the column is a force P acting with an eccentricity n = 2.0 in. If P = 120 kips, determine the maximum compressive stress ff^ in the column. Determine the allowable load Pallowif the yield stress is ( y =42 ksi and the factor of safety with respect to yielding of the material is n = 2.5.
-11 Determine the maximum permissible length Lmaxfor a steel pipe column that is fixed at the base and free at the top and must support an axial load P = 40 kips (see figure). The column has an outside diameter d = 4.0 in., wall thickness t = 0.226 in., E = 29,000 ksi, and y = 42 ksi.