Answer the problem with detailed step by step solution refer to the table of equations when answering the problem. TABLE OF EQUATIONSNormal StressBearing StressPAtdShear Stress (Single)Shear Stress (Double)P= 12ATangential Stress (Cylindrical)PD PrO = =TLongitudinal Stress (Cylindrical)PD PrO = 2t4tStress on Spherical VesselsHooke's LawPD PrOs =4tO = Ee2tDeformationAxial StrainPLΔΙ.E =AE1-1-,Generalized Hooke's LawdyEEx =DilatationdyEy =Ee = €x + €y + €zEdyE, = -vEEShear StrainShear ModulusEG =2(1+ v)y =Thermal StrainThermal Deformation8, = a(AT)LET = aATShear Stress due to TorsionShear Stress at any PointTcTmax =T=-TmaxPolar Moment of Inertia of CircleMinimum Shear Stress (Hollow)Tmin =-TmaxC2Angle of TwistPolar Moment of Inertia of Hollow CircleTLJGShear Stress due to Torsion (Non-Circular Tubes)PowerTP = T2tAAngle of Twist (Non-Circular Tubes)TL ( dsBending StressOx = --om4A?GMaximum Bending StressMcOm =TElastic Section ModulusDeflection of a Beamd?yEdr = MSecond Moment-Area Theoremtc/p = (area bet.C and D)xArea of General SpandrelbhA =n+1Centroid of General Spandrelbn+2Deflection in Simply Supported Beams8p = 0Ạx - tạ/Atc/ADeflection in Cantilever Beams8R = (area of M/El diagram)XgMaximum and Minimum Stress in Beams withCombined Axial and Lateral Loads in BeamsCombined Axial and Lateral LoadsP MyA IP. McOmax,min = t-O =--Transformation of Plane Stresscos 20 +Txy sin 202Principal StressesO + dy Ox - 0y2Ox-dy sin 20 + Tyy cos 202cos 20 - Tzy sin 20Omar, min=2Maximum Shear Stress and Corresponding AngleAngle of Principal Plane+ TâyTmax =21.xy_O- dy2Txytan 20tan 20,%3DCoordinates of Center of Mohr's Circle(*.0)(0x+ dy2 For the given machine part, where the cross-sectional area at m-n is a square withside 5 mm, determine the largest allowable value of the distance e if themaximum stress at section m-n is limited to 150 MPa.mto250 N250 Nn

The largest allowable value of the distance: e = 11.6667 mm.

For the given machine part, where the cross-sectional area at m-n is a square with side 5 mm, determine the largest allowable value of the distance e if the maximum stress at section m-n is limited to 150 MPa. m 250 N 250 N

For the given machine part, where the cross-sectional area at m-n is a square with side 5 mm, determine the largest allowable value of the distance e if the maximum stress at section m-n is limited to 150 MPa. m 250 N 250 N

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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Question

Answer the problem with detailed step by step solution refer to the table of equations when answering the problem.

TABLE OF EQUATIONS
Normal Stress
Bearing Stress
P
A
td
Shear Stress (Single)
Shear Stress (Double)
P
= 1
2A
Tangential Stress (Cylindrical)
PD Pr
O = =T
Longitudinal Stress (Cylindrical)
PD Pr
O = 2t
4t
Stress on Spherical Vessels
Hooke's Law
PD Pr
Os =
4t
O = Ee
2t
Deformation
Axial Strain
PL
ΔΙ.
E =
AE
1-1-,
Generalized Hooke's Law
dy
E
Ex =
Dilatation
dy
Ey =
E
e = €x + €y + €z
E
dy
E, = -v
E
E
Shear Strain
Shear Modulus
E
G =
2(1+ v)
y =
Thermal Strain
Thermal Deformation
8, = a(AT)L
ET = aAT
Shear Stress due to Torsion
Shear Stress at any Point
Tc
Tmax =
T=-Tmax
Polar Moment of Inertia of Circle
Minimum Shear Stress (Hollow)
Tmin =-Tmax
C2
Angle of Twist
Polar Moment of Inertia of Hollow Circle
TL
JG
Shear Stress due to Torsion (Non-Circular Tubes)
Power
T
P = T
2tA
Angle of Twist (Non-Circular Tubes)
TL ( ds
Bending Stress
Ox = --om
4A?G
Maximum Bending Stress
Mc
Om =T
Elastic Section Modulus
Deflection of a Beam
d?y
Edr = M
Second Moment-Area Theorem
tc/p = (area bet.C and D)x
Area of General Spandrel
bh
A =
n+1
Centroid of General Spandrel
b
n+2
Deflection in Simply Supported Beams
8p = 0Ạx - tạ/A
tc/A
Deflection in Cantilever Beams
8R = (area of M/El diagram)Xg
Maximum and Minimum Stress in Beams with
Combined Axial and Lateral Loads in Beams
Combined Axial and Lateral Loads
P My
A I
P. Mc
Omax,min = t-
O =--
Transformation of Plane Stress
cos 20 +Txy sin 20
2
Principal Stresses
O + dy Ox - 0y
2
Ox-dy sin 20 + Tyy cos 20
2
cos 20 - Tzy sin 20
Omar, min=
2
Maximum Shear Stress and Corresponding Angle
Angle of Principal Plane
+ Tây
Tmax =
21.xy_
O- dy
2Txy
tan 20
tan 20,
%3D
Coordinates of Center of Mohr's Circle
(*.0)
(0x+ dy
2

For the given machine part, where the cross-sectional area at m-n is a square with
side 5 mm, determine the largest allowable value of the distance e if the
maximum stress at section m-n is limited to 150 MPa.
m
to
250 N
250 N
n

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