Physics - Kinematics for High School and AP Physics 1 from Udemy

This course is one of several courses designed for Algebra Based AP Physics 1 and Regents Physics. In this course we will cover the topics of one and two dimensional motion.

The videos and resources will include lectures, demonstrations, and plenty of worked out example problems with High School physics curriculum and the AP Physics 1 curriculum in mind. This is perfect for any student planning to take the AP exam or any Introductory College physics student. While this course does not cover calculus based physics, any student enrolled in such course will still benefit from the ground work laid out here.

While this course does have sections for both High School and AP Level Physics, the videos intended for the AP crowed will be clearly labeled.

Upon completion of this course students should look to complete my other courses regarding the other content areas in AP Physics 1 and AP Physics 2.

What's inside

Learning objective

Understand the major concepts of kinematics in 1 and 2 dimensions.

Syllabus

Kinematics in One Dimension

Introduction to Kinematics

Physics Course Online Course Map

Workbook - Kinematics in 1D - HUGE pack of worksheets for you to try out!

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what should give you pause

and possible dealbreakers

Provides a strong foundation in kinematics, which is essential for success in introductory college physics courses and standardized physics examinations

Includes lectures, demonstrations, and worked-out example problems, which are helpful for visual learners and those who benefit from step-by-step guidance

Features a large number of worksheets for practice, which allows learners to reinforce their understanding and improve their problem-solving skills

Focuses on algebra-based physics, which may not be suitable for students seeking a calculus-based approach to kinematics

Recommends completing other courses to cover the remaining content areas in AP Physics 1 and 2, suggesting that this course is part of a larger curriculum

Reviews summary

Kinematics for high school and ap physics 1

According to learners, this course provides a solid foundation in physics kinematics, covering both 1D and 2D motion. Many students found the lectures to be clear and easy to follow, with helpful worked examples that reinforce concepts. The included worksheets are highlighted as a useful resource for practice. The course is particularly seen as a fantastic resource for preparing for AP Physics 1, effectively clarifying challenging topics like projectile motion and motion graphs. While largely positive, a few students desired more challenging problems and greater depth in some areas, and one review suggested some prior knowledge, particularly of vectors, might be beneficial for the 2D sections.

Worksheets and examples aid learning.

"I particularly found the worksheets useful for practicing the concepts."

"the worked examples are a great help. ... The worksheets are a good starting point..."

"provided additional practice."

Concepts are explained well.

"The lectures were clear and the examples worked through were very relevant."

"The instructor explains the concepts well, and the worked examples are a great help."

"Everything is explained step-by-step. ... The explanations of kinematics... were easy to follow."

"Clears up many confusions I had."

Excellent resource for exam prep.

"This course was incredibly helpful for preparing for my AP Physics 1 exam."

"Fantastic resource for AP Physics 1. This really helped reinforce what I was learning in class..."

"Covers all the essential kinematics topics for high school."

May require some vector background.

"Found some of the explanations a bit confusing, especially when moving into 2D vectors."

"Felt like I needed to already know some vector algebra beforehand..."

"The examples were sometimes too quick to follow."

Needs more difficult problems.

"I wish there were more challenging problems, especially ones that mimic the style of competitive exams."

"Some examples are a bit too simple."

"I was hoping for more depth in certain areas..."

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 Physics - Kinematics for High School and AP Physics 1 with these activities:

Review Algebra Fundamentals

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Reinforce your algebra skills, as kinematics relies heavily on algebraic manipulation to solve equations.

Browse courses on Algebra

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Review solving linear equations.
Practice manipulating formulas to isolate variables.
Work through word problems involving rates and distances.

Review 'Physics for Scientists and Engineers' by Serway and Jewett

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Use a standard physics textbook to supplement your understanding of kinematics concepts and problem-solving techniques.

View Physics for Scientists and Engineers, Cengage... on Amazon

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Locate a copy of 'Physics for Scientists and Engineers'.
Review the chapters on kinematics and motion in one and two dimensions.
Work through example problems and check your understanding.

Practice Uniform Accelerated Motion Problems

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Solidify your understanding of UAM equations by working through a variety of practice problems.

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Find online resources with UAM practice problems.
Solve problems involving different initial conditions and target variables.
Check your answers and review the solutions for any mistakes.

Four other activities

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Participate in a Study Group

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Collaborate with peers to discuss concepts, solve problems, and reinforce your understanding of kinematics.

Browse courses on Kinematics

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Find classmates or online forums to form a study group.
Schedule regular meetings to discuss course material.
Work through practice problems together and explain your reasoning.

Create a Kinematics Cheat Sheet

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Summarize key concepts and equations from the course into a concise cheat sheet for quick reference.

Browse courses on Kinematics

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Identify the most important formulas and definitions.
Organize the information in a clear and logical manner.
Include example problems to illustrate the application of each concept.

Explore Advanced Projectile Motion Tutorials

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Deepen your understanding of projectile motion by exploring tutorials that cover more complex scenarios.

Browse courses on Projectile Motion

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Search for tutorials on projectile motion with air resistance.
Follow tutorials on projectile motion on inclined planes.
Try to solve problems presented in the tutorials independently.

Read 'Six Easy Pieces' by Richard Feynman

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Gain a deeper conceptual understanding of physics principles by reading Feynman's accessible explanations.

View Six Not-So-Easy Pieces: Einstein's Relativity,... on Amazon

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Obtain a copy of 'Six Easy Pieces'.
Read the chapters related to motion and mechanics.
Reflect on the concepts presented and how they relate to kinematics.

Career center

Learners who complete Physics - Kinematics for High School and AP Physics 1 will develop knowledge and skills that may be useful to these careers:

Tutor

A tutor provides individualized instruction to students, helping them grasp challenging concepts and improve academic performance. This course, which covers kinematics in one and two dimensions, directly addresses the content a physics tutor would need to be proficient in. The course’s focus on worked-out examples, problem-solving strategies, and the distinction between fundamental and advanced topics gives a tutor helpful resources and strategies for aiding their students. The presence of worksheets and practice problems are very relevant for a tutor looking to generate materials for their students. A tutor specializing in physics can use the course to strengthen their content knowledge.

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Physics Teacher

A physics teacher educates students in the principles of physics, often at the high school or introductory college level. This course, focusing on kinematics in one and two dimensions, directly aligns with the foundational material a physics teacher would need to master and effectively convey to students. The course's emphasis on worked-out examples and problems, coupled with its focus on both conceptual understanding and problem-solving strategies, helps build a foundation for teaching these key topics. The inclusion of both standard and advanced concepts, particularly the distinction between High School and AP level content, is useful for a teacher preparing to teach with a varied curriculum or a wide range of student capabilities. The availability of worksheets and practice problems is also relevant for a teacher developing their own instructional materials. A prospective physics teacher may find this course beneficial.

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Curriculum Developer

Curriculum developers design educational materials, including lesson plans, textbooks, and online courses. A deep understanding of physics concepts, like those covered in this course on kinematics, is necessary for creating effective and accurate educational resources. This course's structure, from its introduction to kinematics to its inclusion of various problem sets and practice worksheets, provides a useful model for developing a well structured and rigorous curriculum. The identification of AP level concepts within the course is useful for a curriculum developer to create materials specifically for advanced students. A curriculum developer in the sciences should consider this course.

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Textbook Author

A textbook author develops comprehensive educational materials for students in a specific subject. This course provides a foundation in kinematics, which is crucial for a physics textbook author. This course may be useful for a textbook author in the sciences as it provides a detailed breakdown of key concepts of kinematics, which can then be incorporated into the textbook. The course's systematic approach to both one and two dimensional motion, as well as its availability of worksheets, will also serve as a guide for developing a comprehensive and cohesive textbook. The focus on both standard and advanced topic, will also be useful to a textbook author covering a variety of curricula. A textbook author working in physics will find this course helpful.

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Instructional Designer

An instructional designer creates engaging and effective learning experiences by structuring educational content and activities. This course, centering on kinematics and designed for both high school and introductory college physics, provides insights into how to organize and present complex information effectively. The course's use of lectures, demonstrations, and worked-out problems offers a useful template for crafting engaging instructional materials. The structured progression from basic concepts to advanced topics and the inclusion of worksheets and practice problems is particularly helpful to an instructional designer on creating a rigorous learning environment. An instructional designer working on physics material may find this course useful.

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Science Museum Educator

Science museum educators develop and deliver engaging educational programs and exhibits for museum visitors. A strong grasp of physics concepts is necessary, and this course on kinematics is useful for this role. The course's focus on both one and two dimensional motion, its use of demonstrations, and its systematic practice problems can provide ideas for interactive exhibits and presentations. A science museum educator looking to develop physics oriented content will likely find this course useful.

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Engineering Technician

An engineering technician provides technical support to engineers, often assisting with design, testing, and prototypes. This course on kinematics, which covers fundamental concepts of motion and vectors, may be useful for a technician working on projects where motion is a consideration. An engineering technician may find this course beneficial for understanding the physical principles that underpin the designs they assist in. The course's focus on worked examples and problem solving is a broadly useful skill for an engineering technician.

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Science Writer

Science writers communicate scientific information to a broad audience, often translating complex topics into accessible language. This course focuses on kinematics, the study of motion, and lays a foundation for understanding more complex physical principles. A science writer covering physics may find this course helpful for solidifying their understanding of fundamental concepts, like scalars, vectors, and projectile motion, which are essential to many physics topics. The course's focus on clear explanations and worked-out examples helps a science writer identify the key elements in presenting these topics to a general audience. A writer who seeks to explain scientific concepts may find this course beneficial when writing on subjects related to motion or force.

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Educational Consultant

An educational consultant advises schools, educational organizations, or individual clients on improving teaching methods, curriculum, and overall educational strategies. A deep understanding of physics concepts, such as kinematics, is relevant for consultants who specialize in STEM education, and this course provides relevant material. This course's inclusion of both standard and AP level content, coupled with the availability of practice worksheets, gives a consultant understanding of how educational material should be designed and refined. An educational consultant working in sciences or mathematics may find this course useful for refining their knowledge.

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Science Journalist

A science journalist researches and reports on scientific developments for news outlets and other publications. This course on kinematics may be useful for a science journalist looking to strengthen their understanding of fundamental physics concepts. This course will be useful, as well, for reporting on topics related to motion or force. The course's approach to breaking down complex topics into manageable components and its focus on worked-out examples will be useful for a journalist seeking to translate scientific findings into language accessible to the general public. A journalist covering the physical sciences will likely find this course helpful.

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Research Assistant

A research assistant supports research projects by conducting experiments, collecting data, and analyzing results. This course, focusing on kinematics, may be useful for a research assistant in fields such as physics. A strong understanding of motion, velocities, and vectors, as covered in this course, helps with all aspects of the research process, from initial experimentation to data interpretation. The course's focus on worked examples will also be helpful for a research assistant looking to strengthen their problem-solving skills. A research assistant working on physics projects may find this course useful.

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Animator

An animator creates moving images for films, television, video games, and other media. This course, which introduces principles of kinematics, including vectors and projectile motion, may be useful for an animator looking to create realistic motion. The concepts covered in this course directly affect the way that animators create animations, and a firm understanding of these concepts is useful for creating believable movements. This course may be helpful for an animator looking to bring the real world motion into their animation work.

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Game Designer

A game designer creates the mechanics, rules, and systems that make video games engaging and fun. This course, which introduces the physics concepts of motion, including scalars, vectors, and projectile, may be useful for a game designer. The course's emphasis on these concepts, which are frequently used in video games, could provide a useful working understanding for someone aiming to build accurate and engaging simulations. A game designer may find this course helpful for designing realistic games.

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Data Analyst

A data analyst collects, processes, and interprets statistical data, often using software and programming tools, to draw meaningful insights and conclusions. While the course does not deal directly with data analysis, it does introduce concepts of motion and vectors, which are foundational to modeling scientific data. The course’s focus on problem-solving and mathematical relationships are helpful for any data analyst that has to model a variety of complex systems. A data analyst may find this course useful for building a foundation in mathematical problem solving.

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Software Developer

A software developer designs and creates computer programs, often working on complex simulations or applications. The course’s focus on kinematics, particularly vectors and motion, may be useful for a software developer working on related projects like animation or simulations. The course's emphasis on mathematical problem solving is a broadly useful skill that is relevant to many programming tasks. A software developer may find this course useful for general problem solving and mathematical skills.

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Physics - Kinematics for High School and AP Physics 1

What's inside

Learning objective

Syllabus

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Reviews summary

Kinematics for high school and ap physics 1

Activities

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