| Ideal Level | Standard Level | Unacceptable Level |
(1) Fundamental equations for multi-axial stress | Systematically understand the fundamental equations for multi-axial stress and can apply it to basic problems. | Can apply various formulae for multiaxial stress to basic problems. | Cannot apply various formulae for multiaxial stress to basic problems. |
(2) Bending of plate | Understand the basics issues related to flat plate bending problems and can explain the difference between beams. | Can calculate stress and deflection of basic problems by using formula related to flat plate bending problems. | Cannot calculate stress and deflection of basic problems related to flat plate bending. |
(3) Stress and strain | Understand the advanced issues related to stress, strain, and elastic moduli, and use them to three-dimensionally examine various problems of strength of materials. | Understand the advanced issues related to stress, strain, and elastic moduli. | Do not understand the advanced issues related to stress, strain, and elastic moduli and remain limited to only a one-dimensional understanding. |
(4) Elastoplastic problem | Understand the mechanical behaviors related to the elastoplasticity of materials and how to analyze them, and can apply them to intensity calculations. | Understand the mechanical behaviors related to the elastoplasticity of materials and how to analyze them. | Do not understand the mechanical phenomena related to elastoplasticity of materials. |
(5) Logical thinking and interactive communication | Can discuss various problems of strength of materials with others based on logical thinking. | Can explain basic concepts and formulae to others on various problems of strength of materials. | Cannot explain to others the formation of various formulae and examples of their use on various problems of strength of materials. |