Micro Bh Micros Bb Micros- с* Question Completion Status:Question 22.0d=1.50 in. dia.1.91.8Classr = 0.08 in.The figure below show a stepped shaft in torsion. Compute the maximum shear stress at the step when it rotates at 100 rad/s and transmits 5000 lb-in/s.Use CamScanner app or Notes app of iPhone to scan all hand-written pages into one PDF file.Attach the PDF file here to answer in this question.Class (bbhosted.cuny.edu/webapps/assessment/take/take.jsp?course_assessment_id=_2374ClassD = 2.00 in. dia.r= Fillet radiusClassG Cuent Projecsuntur EtWA AShp

Answered: Image /qna-images/answer/20a2719e-a9a0-4f0d-b08a-95303723faaa.jpg

Answered: The figure below show a stepped shaft…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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HCM-6 At the design speed Vo Dan's car can go around a banked curve of radius 150M and banking angle of 10.0° without any friction force. The car is shown as viewed from behind in the figure below. R=150m 10.0° a) Use the figure above to draw the free body diagram for the car. Also show on the FBD the direction of the car's acceleration and show coordinate axis directions. b) Write down newtons's second law in component form for the car. Use NO numbers for this part. c) Use your equations from step b) to find the design speed Vo.
Problem Statement: A car drives on a circular track with radius 270 m. Initially, the displacement s=0 and the speed is 24 m/s. The car then begins to accelerate at At 0.3s (given in m/s? where s is in meters). After 3.4 seconds has passed, determine: (To get this answer you may need to use a table of integrals and/or a numerical equation solver.) The distance traveled: ûn The velocity vector: un The acceleration vector: Be sure to include units with your answers.
topic: torsion in circular shafts The hollow shaft used in the system has the following conditions: Outer diameter (Ø): 150 mm Ø Allowable Shearing Stress: 85 MPa Determine the thickness (mm) of the shaft. Round to the nearest whole number for the thickness and use 2 decimal places for other solved values. Provide a torque diagram, strictly follow instructed sign convention, and start from left to right.
A punch punches a 1-in. diameter hole in a steel plate % inch thick every 10 sec. The actual punching takes 1 sec. The ultimate shear strength of the plate is 60,000 psi. The flywheel of the punch press has a mass moment of inertia of 500 in-lb sec? and rotates at a mean speed of 150 rpm. What is the total speed fluctuation of the flywheel in rpm?
Manual Calculation 2: Refer to image shown. Decimal Places: 2 Use hand calculations, modeling is not necessary The "Shaft" carries a torque that induces a shear force in the "Bolts". Shear Stress in the 4 bolts (kN/m³) S = 40,000 "Bolt" spacing (m) C = 0.24 "Bolt" diameter (mm) d = 30 "Shaft" diameter (m) D = 0.15. Assume each "Bolt" carries the same shear force. What is the Torque (kN-m) carrying capacity of the shaft? 4 Typ (d) Bolt Shaft
In the figure shown, I=170mm, b-70mm and wAB=1100rpm (clockwise) Solve for (a) the velocity(m/s) of Pwhen 0-50° (b) the angular velocity(rad/s) of BD when 0-50°. (Note: WAB is constant)
I made a custom made shaft using solidworks. and it's designed with a custom made steam turbine wheel. My question is how do I know what fillet and chamfer to use for the turbine wheel and shaft shoulder. The computed force on the shaft is really low. I just want to know if 0.5 mm radius on the shoulder and 0.50 mm chamfer for the turbine wheel will do. (All units in millimeters)
give the a) A turbine connected to an electric generator through a gearbox can be modelled as illustrated in Figure 1 = 951 kgm² J2 = 950 kgm² equivalent inertias of the rotary system. The shafts provide a stiffness of k1 = 9.9x10¹Nm/Rad k2 = 4.9x106Nm/Rad spectively. The letters in the parameters represent digits of student numbers: A is the third digit, B is the fifth digit, D is the sixth digit, and F is the seventh digit. i) Draw free-body diagrams ii) Write the equations and put them in matrix form iii) Calculate the dynamic stiffness values iv) Find the natural frequencies and draw mode shapes of the system v) Discuss the effect of coupling stiffness k₁₂ on the natural frequencies k₁₁ 01 k12 O Figure Q2.
Solve 30-40 mins..i'll give you multiole upvote..Plz give a proper solution..hand written plzzz
Engineering Mechanics (Like/Thumbs-up will be given. Write the solutions&FBD legibly. Include negative sign if in Compression, ex. -1,500 or if in Tension, ex. 1,500. Round to the nearest whole number.) I. (Multiple Choice) From the given A-Frame shown above, which statements are true: a. The horizontal reaction at C is equal to 0 b. The vertical reaction at A is upward c. The horizontal reaction at pins B and D are equal in magnitude d. Member BD is a two-force member e. None of the above II. (Compute for the external reactions for all members of the frame shown): > Vertical Reaction at A > Horizontal Reaction at A > Vertical Reaction at E > Vertical Reaction at D > Vertical Reaction at B > Vertical Reaction at C > Horizontal Reaction at C > Horizontal Reaction at B > Horizontal Reaction at D
GIVEN: W= 595 N GIVEN: ANGLE A= 44 DEGREE GIVEN: ANGLE B= 14 DEGREE ANSWER: SOLVE (A) IN UNIT CM SOLVE (B) IN UNIT N-CM SOLVE (C) IN N-CM PLS SHOW COMPLETE SOLUTION AND WRITE LEGIBLY AND SHOW THE FREE BODY THE DIAGRAM PLS TAKE NOTE OF THE UNITS WHICH ARE IN CM NOT IN MM AND ALSO LOOK AT WHAT SHOULD BE THE UNITS IN SOLVING (A) IN UNIT CM IN (B) IN UNIT N-CM AND IN (C) IN N-CM.
Q.2 Design a Jig to drill2 holes of 10 mm diameter and a single hole of 10 mm diameter. Refer design data book for designing various parts of jig and mention values referred from design data book. DRILL DRILL O I0 ø 10 2x 4 PIN 25 50 FIG 12 50 SHN $25 20.0 - O 75 25 25 CTS CTS

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