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2.081J Plates and Shells (MIT) 2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term. This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | plates | shells | shells | engineering strain | engineering strain | strain measure | strain measure | bending moment | bending moment | structural plasticity | structural plasticity | membrane energy | membrane energy | green-lagrangian strain | green-lagrangian strain | bending theory of plates | bending theory of plates | buckling theory of plates | buckling theory of plates | raleigh-ritz quotient | raleigh-ritz quotient | local buckling | local buckling | plastic buckling | plastic buckling | cylindrical shells | cylindrical shells | axial load | axial load | lateral pressure | lateral pressure | hydrostatic pressure | hydrostatic pressure | torsion | torsion | bending boundary conditions | bending boundary conditions | strain-displacement | strain-displacement | 2.081 | 2.081 | 16.230 | 16.230

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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2.081J Plates and Shells (MIT) 2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term. This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | plates | shells | shells | engineering strain | engineering strain | strain measure | strain measure | bending moment | bending moment | structural plasticity | structural plasticity | membrane energy | membrane energy | green-lagrangian strain | green-lagrangian strain | bending theory of plates | bending theory of plates | buckling theory of plates | buckling theory of plates | raleigh-ritz quotient | raleigh-ritz quotient | local buckling | local buckling | plastic buckling | plastic buckling | cylindrical shells | cylindrical shells | axial load | axial load | lateral pressure | lateral pressure | hydrostatic pressure | hydrostatic pressure | torsion | torsion | bending boundary conditions | bending boundary conditions | strain-displacement | strain-displacement | 2.081 | 2.081 | 16.230 | 16.230

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates | colourphotograph | digitalimage | industry | social | abstract | interesting | unusual | fascinating | northeastofengland | unitedkingdom | sunderlandpotterycommemorativeplates | georgeedmanbraveg | december30th1861 | born | birth | occasion | event | anniversary | illustration | letters | decoration | neutralbackground | shadow | artificiallight | display | detail | circular | curve | ceramicplatescollection | ceramicplatecollection | shapes | number | smallcaseletters | largecaseletters | leaves | branches | marks | grain | artanddesign | archives

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13.811 Advanced Structural Dynamics and Acoustics (MIT) 13.811 Advanced Structural Dynamics and Acoustics (MIT)

Description

This course begins with the foundations of 3D elasticity, fluid and elastic wave equations, elastic and plastic waves in rods and beams, waves in plates, and dynamics and acoustics of cylindrical shells. The course considers acoustic fluids effects such as radiation and scattering by submerged plates and shells, and interaction between structural elements. Finally, it covers the response of plates and shells to high-intensity loads, dynamic plasticity and fracture, and structural damage caused by implosive and impact loads.Technical RequirementsMATLAB® software is required to run the .m files found on this course site. File decompression software, such as Winzip® or StuffIt®, is required to open the .zip files found on this course site. This course begins with the foundations of 3D elasticity, fluid and elastic wave equations, elastic and plastic waves in rods and beams, waves in plates, and dynamics and acoustics of cylindrical shells. The course considers acoustic fluids effects such as radiation and scattering by submerged plates and shells, and interaction between structural elements. Finally, it covers the response of plates and shells to high-intensity loads, dynamic plasticity and fracture, and structural damage caused by implosive and impact loads.Technical RequirementsMATLAB® software is required to run the .m files found on this course site. File decompression software, such as Winzip® or StuffIt®, is required to open the .zip files found on this course site.

Subjects

3D elasticity | 3D elasticity | wave equations | wave equations | elastic wave | elastic wave | plastic wave | plastic wave | plates | plates | shells | shells | cylindrical shells | cylindrical shells | submerged plates and shells | submerged plates and shells | high-intensity load | high-intensity load | dynamic plasticity | dynamic plasticity | fracture | fracture | implosive load | implosive load | impact load | impact load | radiation | radiation | harmonics | harmonics | scattering | scattering | spheres | spheres | waves | waves | cylinders | cylinders | 2.067 | 2.067

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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2.067 Advanced Structural Dynamics and Acoustics (13.811) (MIT) 2.067 Advanced Structural Dynamics and Acoustics (13.811) (MIT)

Description

This course begins with the foundations of 3D elasticity, fluid and elastic wave equations, elastic and plastic waves in rods and beams, waves in plates, and dynamics and acoustics of cylindrical shells. The course considers acoustic fluids effects such as radiation and scattering by submerged plates and shells, and interaction between structural elements. Finally, it covers the response of plates and shells to high-intensity loads, dynamic plasticity and fracture, and structural damage caused by implosive and impact loads. This course was originally offered in Course 13 (Department of Ocean Engineering) as 13.811. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and this course was renumbered 2.067. This course begins with the foundations of 3D elasticity, fluid and elastic wave equations, elastic and plastic waves in rods and beams, waves in plates, and dynamics and acoustics of cylindrical shells. The course considers acoustic fluids effects such as radiation and scattering by submerged plates and shells, and interaction between structural elements. Finally, it covers the response of plates and shells to high-intensity loads, dynamic plasticity and fracture, and structural damage caused by implosive and impact loads. This course was originally offered in Course 13 (Department of Ocean Engineering) as 13.811. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and this course was renumbered 2.067.

Subjects

3D elasticity | 3D elasticity | wave equations | wave equations | elastic wave | elastic wave | plastic wave | plastic wave | plates | plates | shells | shells | cylindrical shells | cylindrical shells | submerged plates and shells | submerged plates and shells | high-intensity load | high-intensity load | dynamic plasticity | dynamic plasticity | fracture | fracture | implosive load | implosive load | impact load | impact load | radiation | radiation | harmonics | harmonics | scattering | scattering | spheres | spheres | waves | waves | cylinders | cylinders

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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TALAT Lecture 2301: Design of Members

Description

This lecture gives background to calculation methods for aluminium members in order to understand the specific behavior of statically loaded aluminium alloy structures. Basic structural mechanic, design philosophy and structural aluminium alloys and product forms is assumed.

Subjects

aluminium | aluminum | european aluminium association | eaa | talat | training in aluminium application technologies | training | metallurgy | technology | lecture | design | product | member | joint | static | safety | serviceability | geometrical imperfections | extruded profiles | welded profiles | residual stresses | mechanical properties | bauschinger effect | heat affected zones | stress-strain relationship | strength | reduced strength | partial coefficients | resistance factors | gross section | net section | local buckling | cross section classes | slender plates | effective cross section | class 4 cross sections | deflections of beams | breathing | bending moment | yielding | slenderness parameter | element classification | effective thickness | welded section | section with holes | lateral torsional buckling | axial force | tensile force | compressive force | euler load | squash load | flexural buckling | reduction factor | buckling length | splices | end connections | welded columns | columns with bolt holes | cut-outs | longitudinal welds | transverse welds | columns with unfilled bolt-holes | built-up members | intermediate stiffeners | edge stiffeners | single-sided rib | multi-stiffened plates | orthotropic plates | shear force | plate girder webs | shear buckling | shear resistance | webs with stiffeners | plate girders with intermediate stiffeners | corrugated webs | closely stiffened webs | concentrated loads | beam webs without stiffeners | beam webs with stiffeners | shear centre | closed sections | open sections | torsion without warping | torsion with warpin | bending and axial tension | bending and axial compression | strength of beam-column segments | rectangular section | strain hardening | plastic theory | i-section | h-section | thin walled cross sections | t-section | biaxial bending | linear stress distribution | shear lag | flange curling | lateral deflection | non-symmetrical flanges | corematerials | ukoer | Engineering | H000

License

Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | shells | engineering strain | strain measure | bending moment | structural plasticity | membrane energy | green-lagrangian strain | bending theory of plates | buckling theory of plates | raleigh-ritz quotient | local buckling | plastic buckling | cylindrical shells | axial load | lateral pressure | hydrostatic pressure | torsion | bending boundary conditions | strain-displacement | 2.081 | 16.230

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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2.081J Plates and Shells (MIT)

Description

This course explores the following topics: derivation of elastic and plastic stress-strain relations for plate and shell elements; the bending and buckling of rectangular plates; nonlinear geometric effects; post-buckling and ultimate strength of cold formed sections and typical stiffened panels used in naval architecture; the general theory of elastic shells and axisymmetric shells; buckling, crushing and bending strength of cylindrical shells with application to offshore structures; and the application to crashworthiness of vehicles and explosive and impact loading of structures. The class is taught during the first half of term.

Subjects

plates | shells | engineering strain | strain measure | bending moment | structural plasticity | membrane energy | green-lagrangian strain | bending theory of plates | buckling theory of plates | raleigh-ritz quotient | local buckling | plastic buckling | cylindrical shells | axial load | lateral pressure | hydrostatic pressure | torsion | bending boundary conditions | strain-displacement | 2.081 | 16.230

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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TALAT Lecture 2301: Design of Members

Description

This lecture gives background to calculation methods for aluminium members in order to understand the specific behavior of statically loaded aluminium alloy structures. Basic structural mechanic, design philosophy and structural aluminium alloys and product forms is assumed.

Subjects

aluminium | aluminum | european aluminium association | EAA | Training in Aluminium Application Technologies | training | metallurgy | technology | lecture | design | product | member | joint | static | safety | serviceability | geometrical imperfections | extruded profiles | welded profiles | residual stresses | mechanical properties | Bauschinger effect | heat affected zones | stress-strain relationship | strength | reduced strength | partial coefficients | resistance factors | gross section | net section | local buckling | cross section classes | slender plates | effective cross section | class 4 cross sections | deflections of beams | breathing | bending moment | yielding | slenderness parameter | element classification | effective thickness | welded section | section with holes | lateral torsional buckling | axial force | tensile force | compressive force | Euler load | squash load | flexural buckling | reduction factor | buckling length | splices | end connections | welded columns | columns with bolt holes | cut-outs | longitudinal welds | transverse welds | columns with unfilled bolt-holes | built-up members | intermediate stiffeners | edge stiffeners | single-sided rib | multi-stiffened plates | orthotropic plates | shear force | plate girder webs | shear buckling | shear resistance | webs with stiffeners | plate girders with intermediate stiffeners | corrugated webs | closely stiffened webs | concentrated loads | beam webs without stiffeners | beam webs with stiffeners | shear centre | closed sections | open sections | torsion without warping | torsion with warpin | bending and axial tension | bending and axial compression | strength of beam-column segments | rectangular section | strain hardening | plastic theory | I-section | H-section | thin walled cross sections | T-section | biaxial bending | linear stress distribution | shear lag | flange curling | lateral deflection | non-symmetrical flanges | corematerials | ukoer

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates | plate | anniversary | celebration | occasion | momentous | coronation | may121937 | kinggeorgevi | royalty | monarch | crown | cross | symbolic | sunderlandpotterycommemorativeplates | shine | branch | leaves | godsavetheking | england | english | socialheritage | industry | abstract | unusual | intriguing | platecollection | neutralbackground | pattern | outline | border | dot | letter | word | number

License

No known copyright restrictions

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates | hotairballoon | trees | socialgathering | people | intriguing | blackandwhite | tribal | unusual | object | industry | abstract | social | sunderlandpotterycommemorativeplates | illustration | writing | theascentoftheaerialball | musicalinstruments | fence | vegetation | country | branch | leaves | intricate | detail | carnival | blackandwhiteillustration | whitebackground | cloth | hat | dress | joy | basket | cross | english | england | mark | grain | anniversary | post | mask | hair | wave | signature | celebration | momentous | occasion | spear | animal | head | rabbitear | fur | pattern | rope | mysterious

License

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2.094 Finite Element Analysis of Solids and Fluids (MIT) 2.094 Finite Element Analysis of Solids and Fluids (MIT)

Description

This course presents finite element theory and methods for general linear and nonlinear analyses. Reliable and effective finite element procedures are discussed with their applications to the solution of general problems in solid, structural, and fluid mechanics, heat and mass transfer, and fluid-structure interactions. The governing continuum mechanics equations, conservation laws, virtual work, and variational principles are used to establish effective finite element discretizations and the stability, accuracy, and convergence are discussed. The homework and the student-selected term project using the general-purpose finite element analysis program ADINA are important parts of the course. This course presents finite element theory and methods for general linear and nonlinear analyses. Reliable and effective finite element procedures are discussed with their applications to the solution of general problems in solid, structural, and fluid mechanics, heat and mass transfer, and fluid-structure interactions. The governing continuum mechanics equations, conservation laws, virtual work, and variational principles are used to establish effective finite element discretizations and the stability, accuracy, and convergence are discussed. The homework and the student-selected term project using the general-purpose finite element analysis program ADINA are important parts of the course.

Subjects

linear static analysis | linear static analysis | solids | solids | structures | structures | nonlinear static analysis | nonlinear static analysis | heat transfer | heat transfer | fluid flows | fluid flows | finite element methods | finite element methods | ADINA | ADINA | student work | student work | beams | beams | plates | plates | shells | shells | displacement | displacement | conduction | conduction | convection | convection | radiation | radiation | Navier-Stokes | Navier-Stokes | incompressible fluids | incompressible fluids | acoustic fluids | acoustic fluids

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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13.811 Advanced Structural Dynamics and Acoustics (MIT)

Description

This course begins with the foundations of 3D elasticity, fluid and elastic wave equations, elastic and plastic waves in rods and beams, waves in plates, and dynamics and acoustics of cylindrical shells. The course considers acoustic fluids effects such as radiation and scattering by submerged plates and shells, and interaction between structural elements. Finally, it covers the response of plates and shells to high-intensity loads, dynamic plasticity and fracture, and structural damage caused by implosive and impact loads.Technical RequirementsMATLAB® software is required to run the .m files found on this course site. File decompression software, such as Winzip® or StuffIt®, is required to open the .zip files found on this course site.

Subjects

3D elasticity | wave equations | elastic wave | plastic wave | plates | shells | cylindrical shells | submerged plates and shells | high-intensity load | dynamic plasticity | fracture | implosive load | impact load | radiation | harmonics | scattering | spheres | waves | cylinders | 2.067

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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2.067 Advanced Structural Dynamics and Acoustics (13.811) (MIT)

Description

This course begins with the foundations of 3D elasticity, fluid and elastic wave equations, elastic and plastic waves in rods and beams, waves in plates, and dynamics and acoustics of cylindrical shells. The course considers acoustic fluids effects such as radiation and scattering by submerged plates and shells, and interaction between structural elements. Finally, it covers the response of plates and shells to high-intensity loads, dynamic plasticity and fracture, and structural damage caused by implosive and impact loads. This course was originally offered in Course 13 (Department of Ocean Engineering) as 13.811. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and this course was renumbered 2.067.

Subjects

3D elasticity | wave equations | elastic wave | plastic wave | plates | shells | cylindrical shells | submerged plates and shells | high-intensity load | dynamic plasticity | fracture | implosive load | impact load | radiation | harmonics | scattering | spheres | waves | cylinders

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htm

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12.520 Geodynamics (MIT) 12.520 Geodynamics (MIT)

Description

This course deals with mechanics of deformation of the crust and mantle, with emphasis on the importance of different rheological descriptions: brittle, elastic, linear and nonlinear fluids, and viscoelastic. This course deals with mechanics of deformation of the crust and mantle, with emphasis on the importance of different rheological descriptions: brittle, elastic, linear and nonlinear fluids, and viscoelastic.

Subjects

Geodynamics | Geodynamics | mechanics of deformation | mechanics of deformation | crust | crust | mantle | mantle | rheological descriptions | rheological descriptions | brittle | brittle | elastic | elastic | linear | linear | nonlinear fluids | nonlinear fluids | viscoelastic | viscoelastic | surface tractions | surface tractions | tectonic stress | tectonic stress | quantity expression | quantity expression | stress variations | stress variations | sandbox tectonics | sandbox tectonics | displacement gradients | displacement gradients | strains | strains | rotations | rotations | finite strain | finite strain | motivation | motivation | dislocation | dislocation | plates | plates | topography | topography | rock rheology | rock rheology | accretionary wedge | accretionary wedge | linear fluids | linear fluids | elastic models | elastic models | newtonian fluids | newtonian fluids | stream function | stream function | Rayleigh-Taylor instability | Rayleigh-Taylor instability | diapirism | diapirism | diapirs | diapirs | plumes | plumes | corner flow | corner flow | power law creep | power law creep | viscoelasticity | viscoelasticity | porous media | porous media | Elsasser model | Elsasser model | time dependent porous flow | time dependent porous flow

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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6.088 Introduction to C Memory Management and C++ Object-Oriented Programming (MIT) 6.088 Introduction to C Memory Management and C++ Object-Oriented Programming (MIT)

Description

Ever hang your head in shame after your Python program wasn't as fast as your friend's C program? Ever wish you could use objects without having to use Java? Join us for this fun introduction to C and C++! We will take you through a tour that will start with writing simple C programs, go deep into the caves of C memory manipulation, resurface with an introduction to using C++ classes, dive deeper into advanced C++ class use and the C++ Standard Template Libraries. We'll wrap up by teaching you some tricks of the trade that you may need for tech interviews. We see this as a "C/C++ empowerment" course: we want you to come away understanding why you would want to use C over another language (control over memory, probably for performance reasons), why you would want to use C++ ra Ever hang your head in shame after your Python program wasn't as fast as your friend's C program? Ever wish you could use objects without having to use Java? Join us for this fun introduction to C and C++! We will take you through a tour that will start with writing simple C programs, go deep into the caves of C memory manipulation, resurface with an introduction to using C++ classes, dive deeper into advanced C++ class use and the C++ Standard Template Libraries. We'll wrap up by teaching you some tricks of the trade that you may need for tech interviews. We see this as a "C/C++ empowerment" course: we want you to come away understanding why you would want to use C over another language (control over memory, probably for performance reasons), why you would want to use C++ ra

Subjects

C | C | C++ | C++ | programming languages | programming languages | abstraction | abstraction | memory management | memory management | speed | speed | pointers | pointers | structs | structs | memory manipulation | memory manipulation | object oriented programming | object oriented programming | oop | oop | objects | objects | encapsulation | encapsulation | classes | classes | input | input | output | output | inheritance | inheritance | polymorphism | polymorphism | templates | templates | standard library | standard library | binary search tree | binary search tree | arithmetic expression | arithmetic expression | eval | eval | print | print

License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htm

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Aerospace Structures Aerospace Structures

Description

The course on Aerospace Structures gives an overview of the analysis and calculus of lightweight structures. This course is dealing with structural design and stress analysis of thin-walled beams, plates and composite estructures. The course on Aerospace Structures gives an overview of the analysis and calculus of lightweight structures. This course is dealing with structural design and stress analysis of thin-walled beams, plates and composite estructures.

Subjects

Aircraft loads | Aircraft loads | ≠a Estruc. | ≠a Estruc. | Bending and shear of open and closed | Bending and shear of open and closed | †beams | †beams | Shear | Shear | Ūa Aeroespacial | Ūa Aeroespacial | Aircraft | Aircraft | Bending of thin rectangular and circular plates | Bending of thin rectangular and circular plates | 2016 | 2016 | Composite and sandwich structures | Composite and sandwich structures | Structural description | Structural description | Thin-walled beams | Thin-walled beams | † beams | † beams | Structures in the aeronautical sector | Structures in the aeronautical sector | Wing | Wing | Bending | Bending | Laminate theory | Laminate theory | Structural component of the aircraft | Structural component of the aircraft | Failure criteria | Failure criteria | Empennage | Empennage | Fuselage | Fuselage | Thin plate theory | Thin plate theory | Torsion | Torsion

License

Copyright 2015, UC3M http://creativecommons.org/licenses/by-nc-sa/4.0/

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates

License

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates | frame

License

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Commemorative plates Sunderland Museum & Winter Gardens

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Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates

License

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates

License

No known copyright restrictions

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates | crawford | jackcrawford | camperdown

License

No known copyright restrictions

Site sourced from

Tyne & Wear Archives & Museums | FlickR

Attribution

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All metadata

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Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates

License

No known copyright restrictions

Site sourced from

Tyne & Wear Archives & Museums | FlickR

Attribution

Click to get HTML | Click to get attribution | Click to get URL

All metadata

See all metadata

Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates

License

No known copyright restrictions

Site sourced from

Tyne & Wear Archives & Museums | FlickR

Attribution

Click to get HTML | Click to get attribution | Click to get URL

All metadata

See all metadata

Commemorative plates Sunderland Museum & Winter Gardens

Description

Subjects

ceramic | plates | commemorative | sunderland | pottery | history | sunderlandmuseumwintergardens | potterycollection | commemorativeplates

License

No known copyright restrictions

Site sourced from

Tyne & Wear Archives & Museums | FlickR

Attribution

Click to get HTML | Click to get attribution | Click to get URL

All metadata

See all metadata