For the given state of stress of element A, strictly using Mohr's Circle perform the following:
Q: Q4: State the advantage of electro polishing over mechanical polishing.
A: This is based on the concept of electropolishing and mechanical polishing from manufacturing…
Q: A refrigerator is connected to a generator powered by a fuel with a calorific value of 35000 kJ/kg…
A: A Refrigerator works by pushing refrigerant inside itself which is continuously changing from a…
Q: The following data describes the motion of a body through a period of 10 minutes. Time, 1, (min) 0 1…
A: Given Velocity at 8 min, v = 7 m/s Time, t = 8 min…
Q: Determaination of Discharge Thru a Siphor Vol tormutai Qo V2 2 (N1)2 ヤユ P2 2g
A: Given Volume, V = 490 mL = 0.49 x 10-3 m3 Time, t = 10 s Find Discharge, Q
Q: Part A In this problem you will consider the balance of thermal energy radiated and absorbed by a…
A: According to stefan-boltzmann law, the total hemispherical emissive power of a black body per unit…
Q: 01: For the beam ABCD subjected to the loading shown in figure below (B intemal hinge): (1) draw the…
A:
Q: In a SIMPLERankine cycle, the steam throttled condition is 8 MPa and 480°C. The steam is then…
A:
Q: c) A sound wall is to be constructed at the edge of shoulder, along the inside of a horizontal curve…
A:
Q: According to the figure, the vector equation is VA/B=vA-vB VA= vB+vA/B vB=vA+vA/B Option 4
A: From triangle law of vector additon:VA/B=VA-VBVA=VB+VA/B
Q: A car has an initial speed of 17m/s and a constant deceleration of 1 m/s². Determine the velocity of…
A:
Q: An Otto cycle has a compression ratio of 7.5. Determine the volume at the end of expansion if the…
A:
Q: Determine the moment of inertia about the x-axis for the cross-section of the beam shown below.
A:
Q: A smaller power plant produces 25 kg/s steam at 3 MPa, 600o C in the boiler. It cools the condenser…
A:
Q: A 25 degree full-depth involute tooth gear has a pitch diameter of 100 mm. Determine the module if…
A: Concept: Module(m) = Pitch Diameter(D) / no of teeth(T) Given , D= 100 mm T= 20 m= D / T = 100/20 =…
Q: A uniform circular thin rod of radius 10 in. is attached to a pin at C and to the cable AB. Find the…
A: Given data Radius of rod = 10 inWe have to find the centroid with respect to the axis given.
Q: 9. In a divergent duct: O The pressure decreases and the temperature and velocity increases. O The…
A: Considering flow at subsonic speed.
Q: that F = 100.0 N, determine the moment with which it is screwing (a) The OA tube at O. (b) The OB…
A:
Q: Figure shows that the pipe flow of 50 m^3/hr, is driven by pressurized air in the tank.…
A: Given data :- flow rate = 50 m^3/hr friction factor = 0.014 diameter of pipe = 50 mm find the…
Q: Hello, i have to find the carbon footprint of the otto cycle, can you help me?
A: INTRODUCTION: The petrol engine work under the Otto cycle, the Otto cycle has four phases that…
Q: A refrigerant of a certain thermodynamic cycle at a point during the evaporation process where its…
A: Given data :- dryness friction = 50 % latent heat = 211.3 kJ/kg enthalpy of saturated liquid = 190.7…
Q: Home / Chapter 8: Bending / M8.1: The Centroids Game - Learning the Ropes The Centroids Game -…
A: find the centroid of the section and fill the table .
Q: A two-dimensional analysis on the flight of FL FN an airfoil is shown in the figure. The airfoil…
A:
Q: A 75-g projectile traveling at 600 m/s strikes and becomes embedded in the 50-kg block, which is…
A:
Q: Determine the normal force, the shear force, and the bending moment of the bar with the loads below,…
A:
Q: It is proposed to have carbon dioxide (CO2) gas pass through an uninsulated nozzle. The CO2 is to…
A:
Q: Constants Part A In this problem you will consider the balance of thermal energy radiated and…
A: Given data :- length = 2 m circumference = 0.8 m emissivity = 0.6 temperature of body = 30°C find…
Q: A gear and a pinion has a pitch diameter of 10 inches and 3 inches, respectively. If the rpm on the…
A:
Q: Q5: How is the surface quality improved in ball burnishing?
A: This question is based on the concept of ball burnishing from manufacturing engineering.
Q: * For the cantilever beam shown. find the value of Normal stress due to :axial load at point A 4 KN…
A: Given data: Faxial=2 kN Need to determine the normal stress at point A due to the axial load.
Q: What is the ratio of the volume of the bubble as it reaches the surface (V) to its volume at the…
A:
Q: A 21-tooth sprocket is connected to a 63-tooth sprocket by means of RC 60 having 180 pitches.…
A:
Q: 12 rad/s 110 mm C 110 mm 85 mm 65 mm h body/bodies is/are in general plane motion?
A: Ans: Option (b) is correct. Members PQ and QR
Q: Given that the weight density of water is 9810 N/m3, calculate the fluid force (in Newtons) on a…
A: Given data :- weight density = 9810 N/m^3 dimension of plete = 1.6 m × 2 m depth = 4 m. find the…
Q: 6. Compressor blades are designed to produce: Turbulent flow into the combustion chamber. A steady…
A:
Q: Problem 907 Determine the largest load P that can be supported by the circular steel bracket shown…
A: Given data :- diameter of section A-B = 100 mm normal stress = 80 Mpa find the largest load P that…
Q: Example :- Calculate the speed required for 0.6 m³ tank in which 100 W/m3 is supplied to the tank,…
A:
Q: Thermodynamics (Brayton Cycle) Round up the answer up to 5 decimal places. A 120 MW gas turbine…
A:
Q: What is the Wave Machine? The below animation and diagram show a wave machine at Stonybrook…
A: Given question: What is the Wave Machine? The first wave measures 2 inches from the gray line to the…
Q: Multi-evaporator systems are When the required temperature lift is small When the required…
A: Multi evaporator system is used when maintain different temperatures at different point. Widely used…
Q: A disc of mass M = 2 kg, and radius R = 20 cm is connected to a spring at a point at a distance r =…
A:
Q: the latent heat represents
A: This question is based on the concept of latent heat of vaporization from thermodynamics.
Q: Multi-evaporator systems are When the required temperature lift is small When the required…
A:
Q: Q. No. 1: (5 marks) A) A piston cylinder arrangement has a gas in the cylinder space. During a…
A: ∆Q=∆w+∆U+change in frictional energy 3.2=1.6+∆U+0.24 ∆U=3.2-1.6-0.24=1.36kJ
Q: What is the maximum normal stress, MPa, due to bending? For W200x22.5, S = 194um^3. Answer in whole…
A: Given data :- for W200×22.5 S = 194×10^(-6) m^3 find the maximum normal stress ..
Q: A ball is thrown upward from the ground with an initial speed of 32.8 m/s; at the same instant,…
A: Given data Ball 1 is thrown upwards with an initial speed of 32.8 m/s Ball 2 is dropped from a…
Q: Q2: Can cBN be used in honing stick in single layer configuration?
A: Yes, CBN can be used in honing stick in single layer configuration. Honing stick with CBN makes…
Q: In a SIMPLE RANKNE CYCLE!!!! cycle, the steam throttled condition is 8 MPa and 480°C. The steam is…
A:
Q: 5. Bleed air for low pressure turbine cooling is provided by: The combustion chambers. O The turbine…
A: Option (C): The compressor
Q: Liquid flows at a rate of 1.5 L/min in a circular tube with a diameter of 5 mm. inside a circular…
A: When an amount of fluid flows through the section, then the colume of the fluid pass through that…
Q: M M M M L- 5e FIG. 2. Problem 2 Find D in the above figure in terms of 0, and L.
A:
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 3 images
- The internal loadings at a section of the beam in (Eigure 1) are shown Figure 20 mm 100 mm 200 mm 20 mm 10 kNm 20 mm 10/12 60 kN 80 KN 500 N-m Determine the in-plane principal stresses at point C. Also compute the maximum in-plane shear stress at this point Express your answers, separated by commas, to three significant figures. VAZ Ivec 4 d Submit Provide Feedback T Wha Bequest Answer ? MPA, MPA, MPAThe 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 ksi2) The state of stesss at a point in a body relative to the xyz coordinate system is: 2 3 -5 [o]= 3 2 kpsi 6. %3D -5 2 -4 a) Determine the principle stresses and the direction cosines corresponding to each principle stress. b) Draw the 3D Mohr's circles. c) Determine the maximum shear stress. d) Find the orientation of the plane containing the maximum shear stress relative to the original axis system 3) For the stress tensor in problem 2: a) Determine the normal and shear stress on a surface intersecting a plane defined by 3 points (0,0,0); (2,-1,3); (-2,0,1) b) Give the magnitudes of these stresses and the direction cosines defining their directions.
- The stresses acting on element A in the web of a train rail are found to be ‘X (MPa)’tension in the horizontal x-direction and ‘Y (MPa)’ compression in the verticaly-direction. Also, shear stresses of magnitude ‘S (MPa)’ act in the directions shown inthe figure.a) Draw Mohr’s circle for the state of stress.b) Determine the stresses (σx', σy' and τxy') acting on an element oriented at an angle‘D’ from the horizontal. Show these stresses on a sketch of an elementoriented at this angle (X (MPa)=75) ( Y (MPa)=90) ( S (MPa)=40) ( D ( ˚ )=-10) Note: If the angle D is positive, then the shear stress is in the direction shown onthe unit element figure; if it is a minus sign, then the shear stress is in theopposite direction shown on the unit element figure.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 directionThe plate has a thickness of 20 mm and the force P = 3 kN acts along the centerline of this thickness such that d = 150 mm. A) Determine the normal stress at the bottom edge of the plate Enter negative value in the case of compression and positive value in the case of tension. B)Determine the normal stress at the top edge of the plate. Enter negative value in the case of compression and positive value in the case of tension. C)Specify the location of the neutral axis measured from the bottom edge of the plate.
- The Mohr's circle representing a given state of stress is shown. The diagonal line AB represents the original orientation where point A corresponds to the x face and point B corresponds to the y face. a) Show the stresses represented by line AB on the provided stress element. 60 X -30-1 {MPa} y T(MPa) b) Determine the principal stresses and show them on a properly oriented stress A element. y X 40 B 20p 30 40 40b2 h G B M. Q4) For the given system; a) Draw internal force diagrams and determine the most critical section. b) Show the stress distribution on this critical section and find the maximum normal stress. GIVEN: (1 = 50 cm, {2= 30 cm, M, = 5000 Nem, q. = 20 N/cm, bị = 4 cm, b2 = 2 cm, h = 4 cm, t= 1 cmA plane stress state is given as follows (50MP in the bottom right corner denotes the shear component, and others denote the normal components). 1) Please draw the Mohr's circle of this plane stress state. Indicate the center of the circle, the radius of the circle, and the point that corresponds to x-plane (the normal of the plane is x axis) 2) Determine the principal stresses and directions of this stress state using Mohr's circle. 3) Draw the stress element to show maximum shear stress 71, T2, and the corresponding normal stress. 75 MPa 50 MPa 50 MPa
- For a point under a plane state of stress, the stresses on the vertical and horizontal planes are shown in the figure below. 100 MPa 48° 80 MPa 60 MPa Using only the stress transformation EQUATIONS, determine the following: a) The normal stresses on the plane oriented along plane a-b. o, = b) The shear stress on the plane oriented along plane a-b Ty'= c) The locations of the principal planes (express your answers as angles made by the principal planes with respect to the horizontal) Op2= d) The principal stresses Op1= Op2= e) The maximum in-plane shear stress Tmaxip= Show the results of both stresses in plane a-b and principal planes on a sketch of the plane on which these stresses act.The state of plane stress at a point on the surface of the airplane fuselage is represented by the stress element shown in the figure. Using Mohr's Circle, determine a) the principal stresses and the maximum in-plane shear stress specifying the orientation of the element in each case. b) The equivalent state of stress at the point on the element that is oriented {a} clockwise from this position Draw all the corresponding stress elements. Given x = {x} MPa; y = {y} MPa and xy = {xy} MPa xy MPa y y MPa 10000 x MPa →→→→x Solve in terms of variablesAngle 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.