1. A water tank 3 min diameter and 6 m high is made from a steel with thickness of 10 mm. a) When the tank is filled with water, determine the circumferential stress. b) Determine the longitudinal stress at the bottom of the tank when it is filled with water. c) If the tangential stress is limited to 6 MPa, what is the maximum height of water to which the tank may be filled.

1. A water tank 3 min diameter and 6 m high is made from a steel with thickness of 10 mm. a) When the tank is filled with water, determine the circumferential stress. b) Determine the longitudinal stress at the bottom of the tank when it is filled with water. c) If the tangential stress is limited to 6 MPa, what is the maximum height of water to which the tank may be filled.

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter9: Moments And Products Of Inertia Of Areas

Section: Chapter Questions

Problem 9.13P: Figure (a) shows the cross section of a column that uses a structural shape known as W867...

See similar textbooks

Related questions

Q: A gear reduction system consists of two gears: E and X. Gear E rotates clockwise with a constant…

A: Given data: αE=4.5 rad/s2ωE=7 rad/s Need to determine select the correct statement.

Q: plane diagram: Also String 1 String 1 B String 2 A The diagram above shows Carts B and C which roll…

Q: Find the following. Show complete solution.

A: The given diagram is here, Section 1:- A rectangle OABC, whose sides are 120 mm and 80 mm Section…

Q: A 2 ounce bullet is fired with a velocity of 1000 f/s at 0=10°into a 20 lb square panel with sides b…

A: Given:-Weight of bullet=2 ounceInitial velocity=1000 ft/sθ=10°Weight of plate=20 lbb=6 inchh=4…

Q: A team of professional thieves wants to knock down a castle wall using a primitive explosive. At…

A: Given: total mass of the explosive(M) = 40 Kg and it breaks into three pieces as shown below:

Q: A horizontal beam AB supported by an inclined strut CD carries a load P. The strut, which consists…

A: Given data: Diameter of bolt at 'C' joint, db=0.62 in. So, area of bolt against shear is,…

Q: 1. A tank containing 250 kg of kerosene is to be heated from 20°C to 40 °C in 15 minutes, using 4…

A: “Since you have asked multiple question, we will solve the first question for you. If youwant any…

Q: Hello, I don't understand how to solve 5-19 in the photo below. Because I can't find the correct…

Q: Table Q1(a) shows the experimental values for a PVC pipe with diameter of 0.505 m under tensile…

Q: Determine the magnitude and coordinate direction angles of the resultant force. 0.75 m FAR = 250 N…

A: Given, FAC = 400 N FAB = 250 N

Q: 5. An angle bracket ABC is restrained by a high- strength steel wire CD, and it supports a load P at…

Q: What is the answer in #3B. Show complete solution and FBD

Q: A young man, 22 years old, graduated from college and got his first job. He wants to have a…

Q: Determine the reactions at the supports. 5 kN/m 12 kN Figure 1 4 m 2m 2 m

Q: PROBLEM: Represent the translational mechanical system shown in Figure 3.15 in state space about the…

Q: A vehicle and trailer combination cross a 12-meter bridge with axle loads of 10, 20, and 30 kN…

Q: An electrical worker stands in the bucket that hangs from a pin at end D of the boom of the cherry…

Q: Determine the magnitude and coordinate direction angles of the resultant force. 0.75 m FAB = 250 N…

Q: If 1 Pa is equal to 145 psi, what algebraic equation is needed to find out how many MPa there are in…

A: Given that, 1 Pa = 145 psi So, 1 psi = (1/145 ) Pa So, x psi = (x/145) Pa....... This is algebraic…

Q: To find the Mechanical Advantage of ANY simple machine when given the force, use MA = R/E. An Effort…

A: Write the value of load. R=90 N Write the value of effort. E=30 N

Q: team is generated at 4.0 MPa and 440°C and condensation ccurs at 0.15 MPa. (a) Considering that…

Q: A piston-cylinder assembly contains 0.3 lb of propane. The propane expands from an initial state…

Q: . Given the following data of the figure shown : P= 5.5 KN, L, = L, =L, = 2.5 m Strut BC = 100 mm…

Q: Problem Number 2: A horizontal boom 11.5 M in length, AE is supported by guy wires from A to B,C and…

Q: A particle is restricted to the line through the centers of the earth and the moon. Calculate the…

A: Mass of earth = 5.976 x 1024 kg Mass of moon = 7.3505 x 1022 kg Mean earth to moon distance = 384398…

Q: Proeutectoid Ferrite Pearlite

A: The black-coloured region is Pearlite, and the grey coloured region is Proeutecoid Ferrite. Pearlite…

Q: 2. A square hollow steel strut with a wall thickness, t, = 10 mm is pin connected to two gusset…

Q: The springs both have the coefficient of k 2c 4 Slender bar of mass m 5.2. /4

A: For solution of 5.2 refer below images. note:- there will be 5/8 KL2 theta in

Q: CHOOSE THE BEST ANSWER. SHOW THE DETAILS OF YOUR SOLUTIONS TO CREDIT THE CHOICE YOU MADE. DRAW THE…

Concept explainers

Slope and Deflection

The slope in a deflected beam is described as an angle in radians made by the tangent of the section with the original axis of the beam. The deflection at any point on the axis of the beam is defined as the lateral displacement of the point before and after loading.

Question

PLEASE ANSWER NUMBER 1 MECHANICS OF DEFORMABLE BODIES: PLEASE GIVE DETAILED SOLUTIONS AND CORRECT ANSWERS. I WILL REPORT TO BARTLEBY THOSE TUTORS WHO WILL GIVE INCORRECT ANSWERS.(USE 4 DECIMAL PLACES FOR ALL YOUR COMPUTATIONS)

Solve the problems below : ( Use 4 decimal places for all your computations)
1. A water tank 3 m in diameter and 6 m high is made from a steel with thickness of 10 mm.
a) When the tank is filled with water, determine the circumferential stress.
b) Determine the longitudinal stress at the bottom of the tank when it is filled with water.
c) If the tangential stress is limited to 6 MPa, what is the maximum height of water to which
the tank may be filled.

Branch of science that deals with the stationary and moving bodies under the influence of forces.

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

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 2 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

please answer number 3 with complete solution and box the final answer.(Use 4 decimal places for all computation).
Angle 1 Tyx Tyx Figure 1 Point A- x-direction stress 60MPA(compression), y-direction stress 40MPA(tension), negative shear stress 30MPA Using your assigned point determine the following for the yz-plane: a) From basic priciples determine the stresses on the plane of the indicated angle 1-30°, Show al calculations. Draw the orientation of the stress block for this scenario. b) Repeat question (a) using a Mohr circle. c) Using a Mohr circle, determine and draw the maximum stress block of the in-plane maximum shear and principle stresses. d) Determine the stresses and orientation of the stress block where the normal stress is zero. Make use of the stress transformation equations. e) Determine the values of absolute maximum shear stress and corresponding normal stress.
A shaft is subjected to a torque of 28 kNm and a maximum bending moment of 25 kNm. The shaft is solid with a diameter of 125 mm. Using the Mohr circle method find the values for the principal stresses and themaximum shear stresses on the shaft i)Construct the Mohr circle on the graph paper provided. ii) Using the Mohr circle method find the values for the principal stresses and the maximum shear stresses on the shaft.iii) Show the orientations of the planes on which the principal stresses act on a rotatedelement
Please Give detailed Solutions and Correct Answers.Solve the problems below : (Use 4 decimal places for all your computations )
Q: The soil element with known stress conditions is shown in following figure. (i) construct Mohr's circle for the soil element and determine (ii) stress condition of the plane AC (use double angel method); (iii) major and minor principal stresses; (iv) the angle between major principal plane and the plane "AD" ; (v) maximum shear stress. Provide your answer up to one decimal point. [use graph paper to draw Mohr's circle] 2 kN/m² 6 kN/m² + + B D 2 kN/m² 2 kN/m²
A round solid bar has a diameter of 30mm. A tensile force of 120kN is applied at the centroid of area . A) Calculate the stress in the bar and sketch the stress distribution through its thickness along the centre line[ANS : 170 MPa] B) The force in Q1 is re-applied to the same round solid bar but 5mm above the centroid of area. Calculate the stress in the bar and sketch the stress distribution through its thickness along the centre line[ANS:+396, -56 MPa] HOW to answer part two I did not get the answer !!
The state of stress shown to the left was produced by a combination of loadings on a body that is not shown. Determine the following via Mohr's circle: A) Draw Mohr's Circle for the x-y plane. B) Determine the principal stresses - All 3. C) Sketch a properly oriented differential element showing the principal stresses in the x-y plane. D) Determine the magnitude of the maximum shear stress in the x-y plane. E) Sketch a properly oriented differential element showing the maximum shear stress state in the x-y plane. F) Determine the magnitude of the absolute maximum shear stress (and include the two out of plane circles on your original figure). Use the following values for the magnitudes of the stresses: x = 0₂ Txy Ox X X 10 ksi, σy = 4 ksi, σ₂ = 3 ksi, Txy = 4 ksi
The following question does not violate the honor policy as it is an after class practice problem not to be used on homework or any sort of test. I am looking for help with this problem solving for all 4 parts. I have some confusion regarding the angles these forces are acting in.
1 0 Calculate the total volume of the cylindrical component below (not to scale): L1 D1- D1 = 1.12 cm D2 = 0.71 cm D3 = 1.58 cm L1 = 18.68 cm L2 = 15.36 cm L3=13.77 cm L4 = 9.77 cm Answer: Check L2 L3 L4 D2- What is the volume of the cylindrical component? (State your answer in S.I. units (m³), accurate to 3 significant figures) D3
Given problem: The given force system is to be replaced with an equivalent system consisting of a horizontal force applied at the point B and a vertical force applied to the horizontal leg as shown in the figure. a) Determine the magnitude of the vertical force ‘P2’ applied to the horizontal leg in N.b) Determine the value of distance ‘x’ in m.c) Determine the magnitude of the horizontal force ‘P1’ applied at point ‘B’ in N.
A chemistry graduate student is designing a pressure vessel for an experiment. The vessel will contain gases at pressures up to 80.0 MPa. The student's design calls for an observation port on the side of the vessel (see diagram below). The bolts that hold the cover of this port onto the vessel can safely withstand a force of 4.70 MN, pressure vessel bolts aide port Calculate the maximum safe diameter w of the port. Round your answer to the nearest 0.1 cm.
stress element x=21Mpa, y=11Mpa, xy=8, angle=50 degrees using the arithmetic method and Moore's circle 1) Find the main stresses, their directions, and be the maximum shear stresses ) Find the maximum and minimum stresses when rotating at the given angle in the positive direction