Engineering Mechanics: Statics 2 (Intuition + Application)
Published 07/2022
Genre: eLearning | MP4 | Video: h264, 1280x720 | Audio: AAC, 48.0 KHz
Language: English | Size: 5.46 GB | Duration: 123 lectures • 11h 57m
Published 07/2022
Genre: eLearning | MP4 | Video: h264, 1280x720 | Audio: AAC, 48.0 KHz
Language: English | Size: 5.46 GB | Duration: 123 lectures • 11h 57m
Solve practical mechanics problems: body equilibrium, frames, machines, virtual work, friction, trusses, beams, & cables
What you'll learn
How to apply rigid body equilibrium principle in 2D & 3D to practical engineering problems in Statics
How to analyze frames & machines in 2D & 3D in practical engineering problems in Statics
How to apply the principle of virtual work in practical engineering problems in Statics
How to apply potential energy methods to determine the equilibrium and stability of systems in Statics
How to solve engineering problems involving dry friction between two surfaces, flat belts on surfaces, and rolling resistance of wheels
How to calculate tension and compression forces in 2D & 3D truss structures
How to draw shear force and moment diagrams for beams
How to calculate tension forces in cables that support a suspension bridge
Requirements
Functions, Derivatives and Integrals from Calculus
Udemy course: Engineering Mechanics: Statics 1 (Intuition + Application)
Description
How would you determine the forces and moments in the wing of an airplane to make sure that it's strong enough to fly? Or find internal forces in excavators, steer loaders, or, in structures like an oil pumping unit? How do you figure out friction forces between objects and rolling resistance that wheels experience? Would you like to know how to accurately map the internal loads of a travelling crane or calculate the tension forces in the cables of a suspension bridge?
My name is Mark. I'm an Aerospace & Robotics engineer and I will teach you all that here, in Engineering Mechanics: Statics Part 2. Rigid body equilibrium in 2D & 3D, Frames, Pulleys, & Machines, Virtual work, equilibrium stability in mass spring systems, friction between surfaces, friction between flat belts and fixed disks, rolling resistance of a wheel, trusses, internal loads, shear force and moment diagrams, cables for suspension bridges - you will not only receive immense amount of intuition in engineering mechanics, but also, proper applied Math, that's a promise. After this course, you will have strong engineering base to continue with more advanced topics such as Dynamics and structural analysis.
This course is a direct continuation to Engineering Mechanics: Statics Part 1. It is highly recommended that you cover that course first. The teaching style requires you to be very proactive. I give you a problem and the tools to solve it. Then, I ask you to solve it yourself, and only then, after at least trying it, you should see the solution videos. That's how you become a real PROBLEM SOLVER.
If you're looking for a career in Mechanical, Aerospace, Civil or Maritime engineering, then this Engineering Mechanics: Statics course is for you.
Before you buy, please watch the free preview videos, and if you like what you see, ENROLL NOW, and let's get started! Hope to see you inside!
Who this course is for
Engineering students in Mechanical, Civil, Aerospace, Maritime engineering
Professional engineers in Mechanics, Civil, Aerospace, Maritime engineering