What you'll learn Utilize the concepts of work and energy to evaluate control volumes as well as closed systems Steam tables, entropy, ...
What you'll learn Ideal gas law, viscosity, absolute and gage pressure Hydrostatic forces on plane and curved surfaces Buoyancy ...
What you'll learn Solve 2-D and 3-D rigid body equilibrium problems Calculate moments and couple moments using scalars and vectors in 2-D ...
What you'll learn Spring mass damper systems, steady state error, root locus Laplace transforms, block diagrams, state space First ...
What you'll learn Analyze particle motion using kinematics, kinetics, force & acceleration, work energy, and linear & angular impulse ...
What you'll learn Create and modify vectors and matrices, visualize data using 2-D plots User-defined functions, if-elseif and switch case ...
What you'll learn Analyze kinematics of rigid bodies using rotation, translation, absolute motion, relative motion and more Study how ...
What you'll learn Write subfunctions, anonymous functions, and utilize string concepts Create user defined functions with variable inputs ...
What you'll learn Root finding techniques: Bisection Method, Newton's Method, Secant Method Numerical integration techniques: Rectangle ...