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Sukyung Park

This course teaches dynamics, one of the basic mechanics subjects of Mechanical Engineering. Students would be able to organize their knowledge about force and motion, work-energy, impulse-momentum in view of Newton's 2nd law and its integration over time and displacement. The Engineering Dynamics consists of two parts: particle dynamics and rigid body dynamics. This is the first part of the dynamics: Particle dynamics class will consist of lecture videos, which are about 15 min length (or a bit longer). These contain a couple of practice problem solving. There will also be standalone homeworks that are not part of video lectures, and a final exam.

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What's inside

Syllabus

Lecture Note
Before you start the Lecture, please download this lecture note. Each chapter has two version of lecture note. One is student version that has blanks, the Other is filled version.
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1-1 Week
Kinematics of particle in Cartesian, T-N, Polar coordinate and relative motion
1-2 Week
2-1 Week
Equations of motion of particle in linear motion
2-2 Week
3-1 Week
Work & Energy of particle
3-2 Week
4-1 Week
Impulse momentum of a particle
4-2 Week
5-1 Week
Impact of particle
5-2 Week
6-1 Week
Kinetics of motion of the systems of particle
6-2 Week
7-1 Week
Kinetics of steady mass flow and variable mass
7-2 Week
FINAL TEST

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Covers the core mechanics subjects in Mechanical Engineering
Taught by experienced instructors in the field
Taken by students all over the world
Course material is up-to-date and relevant
Requires some background knowledge of physics
Can be challenging for students without a strong math background

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Reviews summary

Excellent particle dynamics course

According to students, this excellent Particle Dynamics course is complex, beneficial, and super. The course is highly rated and well-received by learners who say it is great and perfect.
The course is well-received and highly rated.
"this course was so beneficial and the complexity was so high I observed."
"Super"
"perfect"

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Particle Dynamics with these activities:
Organize your lecture notes and assignments
Keep your course materials organized and accessible for efficient studying.
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  • Create a system for organizing your lecture notes, homework assignments, and quizzes.
  • Review your notes regularly and make any necessary updates or annotations.
  • Make use of folders, binders, or digital tools to keep your materials organized.
Review basic physics and mathematics concepts
Strengthen your foundation by refreshing your knowledge of physics and mathematics concepts that are essential for particle dynamics.
Browse courses on Newtonian Mechanics
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  • Review your notes or textbooks from previous courses in physics and mathematics.
  • Identify the key concepts that are relevant to particle dynamics.
  • Solve practice problems to test your understanding.
Compile a collection of resources for particle dynamics
Organize and gather useful resources such as websites, articles, and videos to enhance your understanding.
Browse courses on Particle Dynamics
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  • Search for online resources that provide valuable information on particle dynamics.
  • Review the resources and select those that align with the course content.
  • Organize the resources into a structured format, such as a categorized list or annotated bibliography.
  • Share the compilation with classmates or the instructor for feedback.
Six other activities
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Show all nine activities
Follow tutorials on particle dynamics
Explore online tutorials and resources to enhance your understanding of particle dynamics.
Browse courses on Particle Dynamics
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  • Search for reputable websites and platforms offering tutorials on particle dynamics.
  • Identify tutorials that cover the specific concepts you need to reinforce.
  • Watch the tutorials and take notes.
  • Apply the concepts learned from the tutorials to practice problems.
Solve practice problems
Practice solving problems related to particle dynamics to reinforce your understanding of the concepts.
Browse courses on Particle Dynamics
Show steps
  • Review the lecture notes and video lessons.
  • Identify and list the key concepts and equations.
  • Attempt to solve practice problems related to the concepts.
  • Compare your solutions to the provided solutions or ask for help from classmates or the instructor.
Join a study group or participate in online discussions
Collaborate with peers to discuss concepts, solve problems, and reinforce your understanding of particle dynamics.
Browse courses on Particle Dynamics
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  • Join a study group or find classmates to form a group.
  • Schedule regular meetings or set up a virtual discussion forum.
  • Review lecture material together.
  • Work on practice problems collaboratively.
Review Engineering Mechanics: Dynamics by Meriam and Kraige
Review this comprehensive textbook to supplement your understanding of particle dynamics.
Show steps
  • Identify the chapters and sections relevant to particle dynamics.
  • Read the assigned chapters and sections.
  • Take notes and highlight important concepts.
  • Solve practice problems from the textbook.
Develop a presentation or visual aid to explain a particle dynamics concept
Enhance your understanding and communication skills by creating a presentation or visual aid that explains a particle dynamics concept.
Browse courses on Particle Dynamics
Show steps
  • Choose a particle dynamics concept that you want to explain.
  • Research and gather information on the concept.
  • Design a presentation or visual aid that clearly explains the concept.
  • Present your work to classmates or the instructor.
Build a model of a simple machine that demonstrates particle dynamics
Apply your understanding of particle dynamics to design and build a physical model that demonstrates the concepts.
Browse courses on Particle Dynamics
Show steps
  • Identify a simple machine that involves particle dynamics.
  • Design a model of the machine.
  • Build the model using appropriate materials.
  • Test the model and observe its behavior.

Career center

Learners who complete Particle Dynamics will develop knowledge and skills that may be useful to these careers:
Mechanical Engineer
Mechanical Engineers design, develop, and maintain mechanical systems. This course helps build a foundation in dynamics, which is essential for Mechanical Engineers, as they need to understand how forces affect the motion of mechanical systems.
Robotics Engineer
Robotics Engineers design, develop, and maintain robots. This course helps build a foundation in dynamics, which is essential for Robotics Engineers, as they need to understand how forces affect the motion of robots.
Systems Engineer
Systems Engineers design, develop, and maintain complex systems, such as aircraft, spacecraft, and medical devices. This course helps build a foundation in dynamics, which is essential for Systems Engineers, as they need to understand how forces affect the motion of systems.
Aerospace Engineer
Aerospace Engineers research, design, develop, maintain, and test aircraft, spacecraft, and related systems. This course helps build a foundation in dynamics, which is a critical area of study for Aerospace Engineers, as they need to understand how forces affect the motion of aircraft and spacecraft.
Mechatronics Engineer
Mechatronics Engineers design, develop, and maintain systems that integrate mechanical, electrical, and computer engineering. This course helps build a foundation in dynamics, which is essential for Mechatronics Engineers, as they need to understand how forces affect the motion of mechatronic systems.
Biomechanical Engineer
Biomechanical Engineers apply the principles of engineering to analyze and design biological systems. This course helps build a foundation in dynamics, which is essential for Biomechanical Engineers, as they need to understand how forces affect the motion of the human body.
Petroleum Engineer
Petroleum Engineers design, develop, and maintain systems for extracting and producing oil and gas. This course helps build a foundation in dynamics, which is essential for Petroleum Engineers, as they need to understand how forces affect the motion of fluids.
Nuclear Engineer
Nuclear Engineers design, develop, and maintain nuclear power plants and other nuclear facilities. This course helps build a foundation in dynamics, which is essential for Nuclear Engineers, as they need to understand how forces affect the motion of nuclear materials.
Automotive Engineer
Automotive Engineers design, develop, test, and manufacture automobiles and their components. This course helps build a foundation in dynamics, which is important for Automotive Engineers, as they need to understand how forces affect the motion of vehicles.
Chemical Engineer
Chemical Engineers design, develop, and operate chemical plants and processes. This course may be useful for Chemical Engineers, as it helps build a foundation in dynamics, which can be applied to the design of chemical plants and processes.
Civil Engineer
Civil Engineers design, build, and maintain infrastructure, such as roads, bridges, and buildings. This course may be useful for Civil Engineers, as it helps build a foundation in dynamics, which can be applied to the design of infrastructure.
Industrial Engineer
Industrial Engineers design, improve, and install integrated systems for managing industrial production and operations. This course may be useful for Industrial Engineers, as it helps build a foundation in dynamics, which can be applied to the design of industrial systems.
Materials Scientist
Materials Scientists research, develop, and test new materials. This course may be useful for Materials Scientists, as it helps build a foundation in dynamics, which can be applied to the design of new materials.
Computer Scientist
Computer Scientists design, develop, and implement software systems. This course may be useful for Computer Scientists, as it helps build a foundation in dynamics, which can be applied to the design of software systems.
Electrical Engineer
Electrical Engineers design, develop, and maintain electrical systems. This course may be useful for Electrical Engineers, as it helps build a foundation in dynamics, which can be applied to the design of electrical systems.

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Particle Dynamics.
Classic textbook commonly used in engineering education. It covers a wide range of mechanics topics, including particle dynamics, and provides a comprehensive treatment of the subject.
Classic textbook commonly used in engineering education. It covers a wide range of mechanics topics, including particle dynamics, and provides a comprehensive treatment of the subject.
Provides a thorough treatment of particle dynamics, including advanced topics such as Lagrange's equations and Hamilton's principle. It valuable reference for students and professionals who wish to delve deeper into the subject.
Comprehensive and well-written introduction to mechanics. It covers a wide range of topics, including particle dynamics, and is suitable for both undergraduate and graduate students.
Provides a comprehensive and rigorous treatment of classical mechanics, including particle dynamics. It valuable reference for students and professionals who wish to understand the theoretical foundations of classical mechanics.
Provides a comprehensive and modern treatment of mechanics and relativity, including particle dynamics. It valuable reference for students and professionals who wish to understand the theoretical foundations of mechanics and relativity.

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