ENGR 213 Course Outcomes

ENGR 213:

Course objectives and outcomes:

• Introduction to Mechanics of Materials
  • Draw a complete and correct free body diagram 
  • Calculate the internal forces and moments due to normal forces and applied moments 
   
•  Relation Between Stress and Strain
  • Define normal and shear stress 
  • Define normal and shear strain 
  • Calculate normal and shear stress and strain 
  • Calculate average normal and shear stress given normal and shear strain 
  • Calculate normal and shear strain given average normal and shear stress 
  • Label and define the important locations on a stress strain diagram 
   
• Maximum Forces and Moments
  • Calculate the maximum axial load in a axially loaded member 
  • Construct an axial load diagram 
  • Calculate the maximum torsion in a torsionally loaded member 
  • Construct a torsion diagram 
  • Calculate the maximum shear force and bending moment 
  • Construct shear force and bending moment diagrams 
   
• Stresses and Deflections Caused by Forces (Shear and Normal) and Moments (Bending and Torsion)
  • Define normal and shear stress 
  • Calculate the normal stress and normal strain due to:  
  • Normal force (e.g. axial load) 
  • Bending moment 
  • Pressure in a vessel  
  • Calculate the shear stress and shear strain due to:
    • Shear force 
    • Torsion 
  • Calculate deflection due to:
    • Axial load 
    • Shear force (normally negligible) 
    • Bending moment 
    • Torsional moment 
     
   
• Maximum Stresses
  • Calculate the value of the maximum normal and shear stresses given a stress element using both Mohr's circle and the stress transformation equations 
  • Calculate the orientation of a stress element where the maximum normal and shear stresses exist 
  • Calculate the normal and shear stresses for an element oriented at an arbitrary angle using both Mohr's Circle and the stress transformation equations 
   
• Superposition -------------------------------------------------------------------------------------9.5
  • Calculate the state of stress in a stress element die to multiple forces and moments 
   
• Solving Statically Indeterminate Members
  • Calculate the reactions at the supports and deflections in statically indeterminate axially and torsionally loaded members 
  • Calculate the deflections and stresses in an axially loaded member subjected to temperature change 
   
• Design of Structural Members
  • Define factor of safety 
  • Calculate factor of safety given allowable stress and failure stress 
  • Select a failure stress given a stress strain diagram 
  • Calculate maximum loads given allowable stress and factor of safety 
  • Determine the required size of a member given loading and allowable stress constraints 
  • Select a beam given a loading condition and allowable bending stress