6. (picture on the right, information in mm): = 200 bar Pmax = Berf=? Outside diameter and change in length per meter at 200bar and 60°C temperature difference? 42,4 3,25
Q: The 0.5-kg cylinder A is released from rest from the position shown and drops a distance h = 0.6 m.…
A:
Q: The beam in Figure 1 has a symmetric cross-section with E = 200 GPa and 1= 17.5×10° mm*: • derive…
A: Here's a breakdown of the key points:Deep Beam Shear Failure:Deep beams, defined as beams with a…
Q: 5. The 13 m long steel beam shown in Figure 5 has a mass of 850 kg and is being hoisted into…
A: The angular velocity of the beam when the dolly reaches the position where B is directly under C and…
Q: The task is to utilise ANSYS Workbench in the design and simulation of a linear, open-sidedcovered…
A: Designing and Simulating a Covered Walkway with ANSYSHere's a breakdown of how you can utilize ANSYS…
Q: Q11 Design the duct system shown below using Equal friction method, and determine the fan power when…
A: Step 1:Given Step 2: Step 3:Step 4:
Q: Determine the reactions at each support of the beam bellow .
A: Step 1: Step 2: Step 3: Step 4:
Q: How does the j-unit vector of vector DH get -21?
A:
Q: An orifice in a vertical plate is located 1.13m below surface of an oil. The area of the orifice is…
A:
Q: Question 7 A liquid (SG = 2.3) flows through a 49-mm diameter tube. At a point where z = 2.3 m and P…
A:
Q: 2. Consider the following matrix 10 0 140 A1 = 0 3 A2 = 1 1 1 , A3 = 1 0 -1 3 (a) Find the…
A: Step 1: Step 2: Step 3: Step 4:
Q: 1. Consider the following square matrix A = 9 6 (a) Determine the eigenvalues and eigenvector(s) of…
A: Step 1:Step 2:
Q: I need to talking about the elements of Enhancing indoor air quality and safe entertainment in…
A: let's break down each element step by step:1. Sensor: - Function:Sensors monitor indoor air quality…
Q: Use mohr's circle circle to solve this
A: Step 1: Step 2: Step 3: Step 4:
Q: SITUATION 2: A packing crate of mass 40 kg is pulled by a rope as shown. Knowing that the…
A:
Q: 5. Airflow at Mach 2 passes through an oblique shock as shown and deflects 10°. A second oblique…
A: Solution:1.2.3.
Q: Use separation of variables to solve the 2D transient heat equation on a rectangular domain with…
A: All the parts are solved properly with detailed explanation.Hope you got your answer. If any query…
Q: Pravinbhai
A:
Q: Get the electrical diagram (Voltage and current) from this pressure system
A: I can't extract electrical diagrams directly from pressure system diagrams. They represent different…
Q: 7. Carombayenin For the closed loop system, find the (1) The range of values of K for stability (2)…
A: Step 1: Step 2:Step 3: Step 4:
Q: A winch drum has an effective diameter 0.25m and is turning at 22 rpm. What is the resulting line…
A: Given data:Effective diameter d=0.25mRotational speed ω=22rpmTo find the line speed of the winch…
Q: 10. Bar ABCD rests against a smooth surface at end D and is supported at end A with a…
A: The objective of the question is to find the correct equation for summing moments about the y-axis…
Q: Please don't provide handwritten solution ....
A: Step 1: **Ascertain the typical stress (σ) at locations A and C**Any point along the shaft will…
Q: Discuss the source, system and receiver concept in vibration and noise control
A: In mechanical engineering, the source, system, and receiver structure provides a framework for…
Q: At a given instance of time, a train engineer sitting in the engine car at E reportsa speed along…
A:
Q: Having trouble understanding how to apply the trapezoidal rule here; any help would be appreciated!
A: The trapezoidal rule is a numerical integration method used to approximate the definite integral of…
Q: For the control system shown in Fig. 3.16: (a) plot the root loci of the system (b) find the value…
A: Step 1: Step 2: Step 3: Step 4: Step 5: Step 6:
Q: The aluminum block has a rectangular cross section and is subjected to an axial compressive force of…
A: if you have any doubt comment
Q: 3. An uncold-worked brass specimen of average grain size 0.01 mm has a yield strength of 150 MPa…
A: Step 1: Step 2: Step 3: Step 4:
Q: 3- A large plane wall has a thickness L=50 cm and thermal conductivity k=25 W/m.K. On the left…
A:
Q: At the beginning of the compression process of an air-standard Otto cycle, p1 = 1 bar, T1 = 290 K,…
A: Step 1: Step 2: Step 3: Step 4:
Q: Disk A rotates around the vertical z-axis with a constant angular velocity ω = dθ/dt = π/3 rad/s. At…
A: Step 1:To calculate the magnitude of the total acceleration vector a of point P at t=0.5 seconds, we…
Q: Your answer is partially correct. A laser emits 4.07 × 1019 photons per second in a beam of light…
A: Step 1: Step 2: Step 3: Step 4:
Q: There are two adjacent gears A and B, with 23 and 42 teeth respectively. Initially, both gears are…
A: Given:Gear A rotates clockwise initially and gear B rotates counterclockwise , and consider the…
Q: Consider a strain gradient in a cantilever beam as shown in the attached figure. If VA-B= 500 lbs,…
A: The formula for solving this problem depends on the specific theory you're using to analyze the…
Q: 20 40 20 60 20 20 20 I need isometric of the shape 142 20 20 2 60 40
A: Approach to solving the question: Detailed explanation: Examples: Key references:
Q: 20. An air compressor has an inlet air enthalpy of 35 Btu/lb and exit enthalpy of 70 Btu/lb. The…
A: The problem states: "An air compressor has an inlet air enthalpy of 35 Btu/lb and exit enthalpy of…
Q: A large windmill design has a swept area of 1600m2. Assuming it operates at 100% of thetheoretical…
A: The objective of this question is to calculate the expected power output of a windmill at two…
Q: Parvinbhai
A: The objective of the question is to develop the [D], [B], and [K] matrices for a triangular element…
Q: Divide the plane frame structure shown in the image into suitable parts for analytical examination…
A: Step 1:Step 2:Step 3:
Q: Please answer all parts
A: Given :-Cutting speed: V=80m/minFeed rate: f=0.2mm/revDepth of cut: w=1.5mmExternal workpiece…
Q: 7) At the instant shown the angular velocity of link AB is 4.5 rad/sec in the CCW sense. Determine…
A:
Q: 1.3 cm 1.0 cm -0.5 cm 3.8 cm 0.5 cm AI B 3.6 cm PROBLEM 9.44 Determine the moments of inertia I, and…
A: if you have any doubt please comment
Q: You are asked to find the centroid of a steel plate with the dimensions shown. In other words, x and…
A: Step 1: part Area (A) xiˉyiˉAxiˉAyiˉ1. Rectangle(4)(2.5)=10m222.5=1.25m0....(on x…
Q: Suppose the block has a weight of 80 lb and the force F is being supplied by a motor which is…
A: Weight of block=80lbdistance(d)=6ftspeed of motor=Draw the free-body diagram of the system.
Q: I need help with this question
A: The objective of the question is to analyze the performance of a steam power plant that operates on…
Q: Two beams (ABCD and DE) are connected using a pin at Point D. The pin acts as a moment release, i.e.…
A:
Q: Needs Complete solution with 100 % accuracy.
A: Step 1:Step 2:Step 3:
Q: The at-rest crate, which has a mass of 100 kg, is subjected to the action of thetwo forces. Using…
A: Step 1: Write all the given. Step 2: Draw the free body diagram. Step 3: Find normal force (N) by…
Q: Two weights (one is 100lbs. the other is 50 lbs.) are suspended over a circular post as shown.…
A: Analyzing the ForcesHere's how to determine the minimum coefficient of static friction (µs) required…
Q: 5. A particle moves with simple harmonic motion between two points 1 m apart. The frequency of the…
A: Approach to solving the question: Simple harmonic motion. Detailed explanation:
Pravinbhai
Step by step
Solved in 2 steps with 3 images
- The figure below shows a cutaway view of an assembly inwhich a solid bronze [G = 6,500 ksi] rod (1) is fitted inside of analuminum alloy [G = 4,000 ksi] tube (2). The tube is attached to afixed plate at C, and both the rod and the tube are welded to a rigidend plate at A. The rod diameter is d1 = 1.75 in. The outside diameterof the tube is D2 = 3.00 in., and its wall thickness is t2 = 0.125 in.Overall dimensions of the assembly are a = 40 in. and b = 8 in. Theallowable shear stresses for the bronze and aluminum materials are10,000 psi and 8,000 psi, respectively. Further, the rotation angle ofend B must be limited to a magnitude of 5°. On the basis of theseconstraints, what is the maximum torque TB that can be applied atend B?Da =5 cm D;=3 cm 1 mm mm T=220°CThe figure shows a cutaway view of an assembly in which a solid bronze [G= 6,500 ksi] rod (1) is fitted inside of an aluminum alloy [G= 4,000 ksi] tube (2). The tube is attached to a fixed plate at C, and both the rod and the tube are welded to a rigid end plate at A. The rod diameter is d₁ = 1.05 in. The outside diameter of the tube is D₂ = 2.7 in. and its wall thickness is t₂ = 0.120 in. Overall dimensions of the assembly are a = 46 in. and b= 13 in. The allowable shear stresses for the bronze and aluminum materials are 10200 psi and 8100 psi, respectively. Further, the rotation angle of end B must be limited to a magnitude of 5.3°. Based on these constraints, what is the maximum torque Te that can be applied at end B? D₂ End plate A 12 Fixed plate Tube (2) a Rod (1) 0 di TB B
- From the figure shown, Material 1 (brown) is enclosed inside Material 2 (grey). If there would be a load directly applied on material 2, what should be the minimum inside diameter of material 2, so that there is no contact pressure between the material 1 and material 2? Force P = 357.5 kN Diameter of Material 1 = 88.75 mm Poisson's Ratio = 0.355 Modulus of Elasticity of Mat. 1 88.56 x 10 9 N/m^2 Note: Final answer in 4 decimal places.Element 1 Ук ** Answer in MPa. 2 cm Element 2 Assume the reaction forces at the origin were solved to be Rf = [325, 100, 0] N and = Rm [10, -2, 5] Nm. We will consider a hypothetical cut at the connection of the dolly to the axle. Z is positive out of the page. What is the value of normal stress in the x-direction Ox for element 2? Answer options: a) Ox < -300 b) -300 ≤ Ox < -100 c) -100 ≤ Ox < -200 d) 0 ≤ Ox < 100 e) 100 ≤ Ox < 300 f) 300 ≤ OxQuestion 12 What is the resulting modulus of In (2 +3 j)?
- Problem 4: The state of stress at a particular point in a structure is given below. 10 20 0 ¹-[20 = 20 -10√2 MPa 0 -10√2 10/27/1 [o] (a) Write the characteristic equation (cubic equation) that would be used to determine the principal stresses. (b) Without solving the characteristic equation, verify that one of the principal stresses is Op = 30 MPa. Find its corresponding principal direction (i.e., find its direction cosines). (c) Determine the other principal stresses and their corresponding principal directions. (d) Determine the maximum shear stress.Problem 3: One hollow cylinder is shrink-fitted inside another. Both cylinders have length L and both the flat faces of each cylinder are constrained in the axial direction. They are free to move in radial and tangential directions. Both cylinders are made of the same material steel. New steel material will be created. Cylinder Inner Cylinder FIGURE 1 SHRINK FIT ASSEMBLY Outside Cylinder Steel: E = 30 x 106 psi Inside Radius r;=4" R₁=6" FIGURE 2 EXPLODED VIEW OF SHRINK FIT ASSEMBLY Outside Radius r=6.005" R₂=8" Length L = 5" L = 5" An internal pressure P = 30,000 psi is applied on the inner surface of the inner cylinder. What to Submit: 1. Find the tangential stress distribution at the outside surface of the outer cylinder (r = 8"). 2. Find the tangential stress distribution at the inner surface of the inner cylinder (r = 4") 3. Find the contact pressure developed at the interference location.3) Figure - 2 shows a round bar (Ø 40 mm) being used as a bracket to support equipment attached as shown. Determine stress and strain in each sectio.. ) and the total dislocation of point A -, -). If bar diameter is increased for 0.2 [mm], find Poisson's ratio for. Loads are applied as shown., A Given: F, Z, Zz = Z2 = Z3 = 400 [mm] F = 15[kN) F2 = 10[kN) F3 = 5(kN] E = 2.0 x 10° (MPa] Ø, = 40 mm Ø, = 40 mm F, Z, F, Figure -
- From the figure shown, Material 1 (brown) is enclosed inside Material 2 (grey). If there would be a load directly applied on material 2. what should be the minimum inside diameter of material 2, so that there is no contact pressure between the material 1 and material 2? Force P = 357.5 kN Diameter of Material 1 = 88.75 mm Poisson's Ratio = 0.355 Modulus of Elasticity of Mat. 1= 88.56 x 10 9 N/m^21. Arectangular plate 50 mm x 10 mm with a hole 10 mm diameter is subjected to an axial load of 10KN. Taking stress concentration into account, find the maximum stress induced. [Ans. 50 MPa]The influence of grain size on the yield strength of metallic material is shown in the figure, what would be the magnitude of the material yield strength (MPa) if its grain size is 0.025 mm. Grain size, d (mm) 5 x 10-3 30 10-1 10-2 200 150 20 100 50 4 8 12 16 d1/2 (mm-1/2) Yield strength (MPa) Yield strength (ksi)