Language: English
Created by: Foster Lubbe
Rate : 5.0/ 2 ratings
Enroll: 774 students
What you’ll learn
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Derivation of equations of motion.
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Plotting acceleration, velocity and displacement versus time.
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Mathematical analysis of motion along a straight line.
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Mathematical analysis of motion along a curved line.
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Analysis of projectile motion.
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Polar coordinates.
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Relative motion in one dimension.
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Relative motion in two dimensions.
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How to use Newton’s Second Law to solve kinetics problems.
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How to apply Newton’s Second Law using normal-tangential coordinates.
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How to apply Newton’s Second Law using cylindrical coordinates.
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How to use the Principle of Work and Energy to solve kinetics problems.
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How to apply the Principle of Energy Conservation.
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How to use the Principle of Impulse and Momentum to solve kinetics problems.
Requirements
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Engineering Mechanics: Statics
Description
This course covers the material typically included in a first university course in Engineering Mechanics: Dynamics. The focus of the course is on the fundamentals – you will learn the theory and also be guided by examples – in order for you to improve your university grades. This course is therefore the ideal supplement to your first university course in Engineering Mechanics: Dynamics, but can also be taken as a stand-alone course by anyone who wants to learn the fundamentals of engineering dynamics.
Who this course is for:
- Students of Mechanical Engineering looking to improve their grades.
- Professional engineers looking to brush up on their dynamics.
