The end gear (closest to thejournal bearing at A) issubjected to the loadingshown in the figure. Thejournal bearings A and Bexert on the shaft only the yand z components of the100 mm250 mm50 mmsupport reactions.Dětermine the equilibriumtorque T at gear C. Using the"Maximum75 mm150 mmDistortionEnergy Theory"withJallowablethetogether80 MPa,smallestcalculatepossible diameter of theshaftmillimeter that will supportthe loading.tothenearest100 mmF.= 15 kN

Given: The yields strength of material = 80 MPa

The end gear (closest to the journal bearing at A) is subjected to the loading shown in the figure. The journal bearings A and B exert on the shaft only the y and z components of the 100 mm 250 mm 50 mm support reactions. Determine the equilibrium torque T at gear C. Using the Distortion 75 mm 150 mm "Maximum Energy Theory" together 80 MPa, smallest with Jallowable the !! calculate possible diameter of the shaft to the nearest 100 mm millimeter that will support the loading. F. = 15 kN

The end gear (closest to the journal bearing at A) is subjected to the loading shown in the figure. The journal bearings A and B exert on the shaft only the y and z components of the 100 mm 250 mm 50 mm support reactions. Determine the equilibrium torque T at gear C. Using the Distortion 75 mm 150 mm "Maximum Energy Theory" together 80 MPa, smallest with Jallowable the !! calculate possible diameter of the shaft to the nearest 100 mm millimeter that will support the loading. F. = 15 kN

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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Chemical and Phase Equilibrium

Phase diagrams or equilibrium phase diagrams are the graphical representations that show the phase transformations of the constituting elements with respect to the pressure, temperature, and compositions. The diagrams show the conditions that limit the different phases, namely solid, liquid, and gas. The diagram can also be utilized to verify the relations between the state variables. Most of the phase diagrams are temperature-pressure phase diagrams, with the variable parameter as the composition. Usually other variables such as solubility and pressure parameters are not indicated in the phase diagram. For a one-component system (unary phase diagram), the phase diagram is generally a function of temperature and pressure as the state variables, or temperature and volume. However, for a binary system (two-phase) having two components, the phase diagram is a function of temperature and composition as the state variables only. Coexisting of the different phases of the constituting elements is indicated in the phase diagram. A ternary phase diagram can be characterized by consisting of three phases in equilibrium.

Question

100%

The end gear (closest to the
journal bearing at A) is
subjected to the loading
shown in the figure. The
journal bearings A and B
exert on the shaft only the y
and z components of the
100 mm
250 mm
50 mm
support reactions.
Dětermine the equilibrium
torque T at gear C. Using the
"Maximum
75 mm
150 mm
Distortion
Energy Theory"
with
Jallowable
the
together
80 MPa,
smallest
calculate
possible diameter of the
shaft
millimeter that will support
the loading.
to
the
nearest
100 mm
F.= 15 kN

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