# Strength materials homework help by experienced tutors

We provide first-class strength materials homework help to students from all corners of the word at a pocket-friendly price. Our online strength materials assignment help tutors work around the clock to ensure that they deliver high-quality solutions on time. We know how harmful plagiarism is, and hence we do all our homework from scratch and do not reuse our past projects. Whether it is a long-term strength materials assignment or a short-term one, we are experienced and flexible enough to tackle them and submit them within the agreed-upon time professionally.

The exhaustive list of topics in Strength of Materials in which we provide Help with Homework Assignment and Help with Project is as follows:

• Analysis of stresses:
• Body forces
• Surface forces
• Internal Force
• Stress at a point
• Components of stress in Rectangular coordinates
• Stress tensor
• Principal stresses
• Transformation
• Equations
• Stress invariants
• Plane stress
• Mohr’s circle for plane stress
• Analysis of Strain:
• Deformable bodies
• Concepts of normal strain and shear strain
• Strain components at a point
• Transformation equations
• Principal strains
• Mohr’s circle of strains
• Compatibility conditions
• Displacement equation of equililibirum
• Plane strain.
• Stress-Strain relations:
• Uniaxial tensile test
• Elasticity
• Anelasticity
• Work-hardening
• Anisotropy
• Homogeneity and continuity
• Generalized Hooke’s law
• Lame’s constants
• Modulus of rigidity
• Bulk modulus
• Relation between the elastic constants
• Principle of superposition
• Uniqueness theorem
• Thermal effects.
• Bars of variable cross-section
• Statically indeterminate problems in a tension and compression
• Thin cylindrical and spherical vessels.
• Torsion:
• Geometry of deformation of a twisted circular shaft
• Stress and deformation in twisted circular solid and hollow shafts
• Strain energy due to torsion
• Power transmitted by circular shafts.
• Bending of Beams:
• Bending moment and shear force diagrams
• Stresses due to bending
• Bending equation
• Shear stresses in symmetrical elastic beams transmitting both shear and bending moment.
• Deflection of Beams:
• The moment curvature relation
• Macaulay’s and moment-area method
• Castigliano’s theorem.
• Combined Stresses:
• Beam subjected to bending and shear
• Shaft subjected to bending and torsion
• Short columns.
• Stability of Columns:
• Stable and unstable equilibrium
• Euler’s formula for long columns
• Rankine’s formula.
• Spring:
• Types of Springs
• Close coiled and open coiled springs