Need help Mechanics of materials review Part C - Maximum in-plane shear strain and average normal strain on the oriented elementDetermine the maximum in-plane shear strain and the average normal strain on the oriented elementExpress your answers, separated by a comma, to three significant figures.► View Available Hint(s)Avec[]?maz=Yin plane avgSubmit

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Learning Goal: To become familiar with the general equations plane strain used for determining in-plane principal strain, maximum in-plane shear strain, and average normal strain. The state of strain at a point has components of € = 400.0 × (10-6), y = -215.0 x (10-6), and Yzy = 200.0x (10-6). Part A - Equivalent in-plane strains on the oriented element Determine the equivalent in-plane strains on an element rotated counterclockwise at an angle of 0= 60.0°. Express your answers, separated by commas, to three significant figures. ► View Available Hint(s) Π| ΑΣΦ | | | vec ? Ez, Ey', Yz'y = Submit Part B - In-plane principal strains on the oriented element Determine the in-plane principal strains on the oriented element. Express your answers, separated by a comma, to three significant figures. ► View Available Hint(s) AΣo↓↑vec n ? €1, €2 = Review

Learning Goal: To become familiar with the general equations plane strain used for determining in-plane principal strain, maximum in-plane shear strain, and average normal strain. The state of strain at a point has components of € = 400.0 × (10-6), y = -215.0 x (10-6), and Yzy = 200.0x (10-6). Part A - Equivalent in-plane strains on the oriented element Determine the equivalent in-plane strains on an element rotated counterclockwise at an angle of 0= 60.0°. Express your answers, separated by commas, to three significant figures. ► View Available Hint(s) Π| ΑΣΦ | | | vec ? Ez, Ey', Yz'y = Submit Part B - In-plane principal strains on the oriented element Determine the in-plane principal strains on the oriented element. Express your answers, separated by a comma, to three significant figures. ► View Available Hint(s) AΣo↓↑vec n ? €1, €2 = Review

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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Concept explainers

Thermal Properties of Materials

In mechanical engineering, the thermal property is represented as the physical quantity that is relevant to the application of heat. The thermal properties are evaluated by variations in any specific material due to low heat or high heat. The quantities that influence the thermal property of the materials are mass, density, temperature, and many others.

Question

Need help Mechanics of materials review

<HW CH10_01
General Equations of Plane Strain
Learning Goal:
To become familiar with the general equations of plane
strain used for determining in-plane principal strain,
maximum in-plane shear strain, and average normal
strain.
The state of strain at a point has components of
€ = 400.0 × (10-6), €y = −215.0 × (10-6), and
Yzy = 200.0 x (10-6).
Part A - Equivalent in-plane strains on the oriented element
Determine the equivalent in-plane strains on an element rotated counterclockwise at an angle of 0 = 60.0°
Express your answers, separated by commas, to three significant figures.
► View Available Hint(s)
A vec
?
ET', Ey', Yz'y' =
Submit
Part B - In-plane principal strains on the oriented element
Determine the in-plane principal strains on the oriented element.
Express your answers, separated by a comma, to three significant figures.
► View Available Hint(s)
IVE ΑΣΦ. 41 | vec
?
€1, €2 =
5 of 5
Review

Part C - Maximum in-plane shear strain and average normal strain on the oriented element
Determine the maximum in-plane shear strain and the average normal strain on the oriented element
Express your answers, separated by a comma, to three significant figures.
► View Available Hint(s)
Avec
[]?
maz
=
Yin plane avg
Submit

Branch of science that deals with the stationary and moving bodies under the influence of forces.

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Elements Of Electromagnetics

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ISBN:

9780190698614

Author:

Sadiku, Matthew N. O.

Publisher:

Oxford University Press