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Engineering mechanics homework help in the UK, USA, Canada, and Australia

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

  • Conservation of Momentum for Finite Control Volumes
  • Pipe Friction Losses, Moody Diagram, Minor Losses
  • Reynolds Transport Theorem
  • Conservation Laws for Finite Control Volumes
  • Application of Conservation Principles for Finite Control
  • Pipe Flow Analysis
  • Applications of Momentum
  • Fluid Concepts
  • Laminar Flow, Shear Stresses in Fluids
  • Special Forms and Interpretations of the Bernoulli Equation
  • Stream Function, Velocity Potential, Flownet Construction
  • Description of Fluid Flow, Conservation Laws
  • Flownet and Streamline Construction
  • Hydrostatics, Forces on Plane and Curved Surfaces
  • The Bernoulli Equation from Energy Considerations
  • Bernoulli Experiment
  • Velocity Distribution in Laminar Flows, Turbulence, The Reynolds Number
  • Stability of Floating Bodies
  • The Continuum Hypothesis
  • Application of Mass Conservation and Bernoulli
  • Manometry, Stability of Dams and Gates
  • Mass and Volume Conservation
  • Application of Energy and Momentum Principles in Open Channel Flows
  • Drag Forces on Immersed Bodies
  • Application of Specific Head in Open Channel Flow, Super- and Sub-critical Flows
  • Open Channel Flow Computations
  • Uniform Open Channel Flow Computations
  • Bernoulli Principle in Open Channel Flow
  • Gradually Varied Open Channel Flow
  • Dynamic Response of a Floating Body
  • Pipe Flow Demonstration and Analysis
  • Specific Head-Depth Diagram
  • Turbines and Windmills
  • Momentum Principle in Open Channel Flow
  • Lift Forces on Immersed Bodies

 
  • Strength of beam structures
  • Beam elasticity
  • Continuum model: geostatics example
  • The Bernoulli Equation for Ideal Fluids
  • Hydrostatics and Dimensional Analysis
  • 1D energy methods: applications
  • Beam stress model
  • Energy bounds: 1D system (minimum complementary energy)
  • How stuff fails: stability (Euler buckling)
  • Energy methods for beam structures, example
  • Strength models
  • Continuum elasticity
  • Generalization to 3D
  • Gradually Varied Flow Profiles
  • Elasticity: properties
  • Energy bounds: 1D system (minimum potential energy)
  • Deformation and strain tensor
  • Plastic collapse
  • Uniform Open Channel Flow
  • Galileo's problem
  • Mohr circle in strain space
  • Stress method for beam structures
  • Dimensional analysis and application to engineering structures
  • Soil mechanics example
  • Continuum model: hydrostatics example
  • Elasticity: energy approach
  • Pump Specification and Requirements
  • Fracture mechanics
  • Dimensional analysis and atomic explosion
  • Beam section strength model (M/N interactions)
  • Fluid Mechanics of Pitching
  • Application of Momentum Principle in Open Channel Flow
  • Beam deformation
  • Stress vector and stress tensor