The above left drawing shows a countershaft with helical gear B, bevel gear D, and two supporting bearing A and C. Loads acting on the bevel gear are shown. Force on the helical gear can be determined from equilibrium of moments about the shaft axis plus the given proportions of helical gear force components. Shaft dimensions are given in the above right drawing. All shoulders fillets (at points where diameter changes) have a radius of 5 mm. note that the shaft is designed so that only bearing A takes thrust. The shaft is made of hardened steel, Su=1069 MPa, Sy=896MPa. All important surfaces are finished by grinding. (Note: stress concentration) Forces act at 500-mm dia. F, = 1.37 kN В 550 F, = 5.33 kN D 400 F, = 0.3675F, F = 0.2625F, 400 450 Fy F = 1.37 kN (1) Forces act at 375-mm dia. 120 dia. E Кеyway 80 dia.

The above left drawing shows a countershaft with helical gear B, bevel gear D, and two supporting bearing A and C. Loads acting on the bevel gear are shown. Force on the helical gear can be determined from equilibrium of moments about the shaft axis plus the given proportions of helical gear force components. Shaft dimensions are given in the above right drawing. All shoulders fillets (at points where diameter changes) have a radius of 5 mm. note that the shaft is designed so that only bearing A takes thrust. The shaft is made of hardened steel, Su=1069 MPa, Sy=896MPa. All important surfaces are finished by grinding. (Note: stress concentration) Forces act at 500-mm dia. F, = 1.37 kN В 550 F, = 5.33 kN D 400 F, = 0.3675F, F = 0.2625F, 400 450 Fy F = 1.37 kN (1) Forces act at 375-mm dia. 120 dia. E Кеyway 80 dia.

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

See similar textbooks

Similar questions

A Brinell test is performed on a steel using a 1.2 in. diameter indenter with a load of 71825 Ibs. A 0.75 in. Determine in indentation was measured on the surface of the steel. Determine: a) HBN (psi); b) tensile strength (psi) a) HBN = psi b) Tensile strength = psi
71.7 is being marked wrong in McGraw Hill homework. I thought I had done it right with putting 86.03 but that is wrong also. I'm not trying to just find the answer, trying to find how to do this. Could there be a different number than 71.7? Where does the μk=0.20 come into the equation?
Q1. What is sheet metal working? Write any four products made through the sheet metal processing. Explain in detail about the galvanized iron and stainless steel sheet metal materials.
Hello sir, I want to solve in a clear beautiful font that will be a manual line with a pen I know a strange request and don't forget my name and thank you sir, God bless you
Please give a steps by steps explanation of each question answer please. Thanks you so much
23- Complete the sentence with the appropriate terminology. In .. a simple punch and die that each have the included angle are used to bend the part. wrinkling b) tearing edge bending V-bending e) earing
(a)Identify the different types of technical drawing and state what technical drawing is. (b)How do we ought to handle the main materials used in technical drawing and what are the elementary standards of technical drawing? (c)The image below shows several types of technical drawing. I dentify them.
Can someone help me to solve the following problem showing all work thank you!
23. Mastery Objective 23: Perform shearing on triangles and parallelograms, and explain what measurements are preserved or change. (a) Shear the following triangle. Explain what measurements change and what stays the same, justifying your claims. D. (b) Shear the following parallelogram. Explain what measurements change and what stays the same, justifying your claims.
In the last few steps, where did 0.4 come from?
In one sentence, explain the difference between straightness and flatness.