The third course in a comprehensive series designed to prepare you for the AP Physics 2 exam, focusing on optics and modern physics.
Preparing for the AP Physics 2 exam requires a deep understanding of many different topics in physics as well as an understanding of the AP exam and the types of questions it asks. This course is Part 3 of our AP Physics 2 series designed to prepare you for the AP exam.
In Part 3, you will be learning about optics and modern physics. You will explore light and how it interacts with different mediums, the atom and some interesting things that go on there, and how nuclear physics is being used today.
As you work through this course, you will find lecture videos taught by expert AP physics teachers, practice multiple choice questions and free response questions that are similar to what you will encounter on the AP exam and tutorial videos that show you step-by-step how to solve problems. By the end of the course, you will be prepared to take on the AP exam!
This course is authorized as an Advanced Placement® (AP®) course by the AP Course Audit. The AP Course Audit was created by the College Board to give schools and students the confidence that all AP courses meet or exceed the same clearly articulated curricular expectations of colleges and universities.
By taking an AP course and scoring successfully on the related AP Exam, students can:
- Stand Out in College Admissions
- Earn College Credits
- Skip Introductory Classes
- Build College Skills Advanced Placement® and AP® are trademarks registered and/or owned by the College Board, which was not involved in the production of, and does not endorse, these offerings.
What you'll learn:
- Prepare for the AP Physics 2 Exam
- Learn about Geometric Optics, Light, Modern Physics
- See how mathematical models and probability can be used to describe properties on a quantum scale
- See how waves transfer energy and momentum over distances
- Participate in inquiry-based lab investigations and discussions
This course will help the students who have taken intro-level high-school physics to get ready for more advanced courses including AP Physics C: Mechanics. This short course is intended for the high-school students who have taken an introductory-level physics course, acquired some background in Mechanics and intend to take a more advanced course – for instance, AP Physics C.
The science of stars and stones. Archaeoastronomy is the “science of stars and stones”: it studies the relationships between the ancient monuments and the sky, in order to gain a better understanding of the ideas of the architects of the past and of their religious and symbolic world. The course provides the first complete, easy introduction to this fascinating discipline.
Il corso affronta le tematiche dell’elettromagnetismo e dell’ottica partendo dall’applicazione del metodo sperimentale, per prepararsi al meglio all'ingresso all'università.
The course addresses the thematic of electromagnetism and optics, starting with the applications of the experimental method, to better start the academic learning path.
Learn about statics through real life engineering examples. Engage with the theory to grasp the full understanding of simple machines and complex mathematical models. Are you interested in improving your mechanics or introducing yourself to the subject all together? Join our unique course, devised by the Ural Federal University. Through our innovative approach, you will receive the basic traditional material by engaging in practically-oriented tasks and learn the strictly theoretical mathematical analysis of basic concepts.
Learn about the science behind the current exploration of the solar system in this free class. Use principles from physics, chemistry, biology, and geology to understand the latest from Mars, comprehend the outer solar system, ponder planets outside our solar system, and search for habitability in our neighborhood and beyond.
In this course, you will learn how to characterize the energy state of a system and the mechanisms for transferring energy from one system to another. These are the tools necessary to understand stationary and transportation power systems from small scale, like batteries, to large scale, like nuclear power plants.
Il corso affronta le tematiche della meccanica e della termodinamica partendo dall’applicazione del metodo sperimentale, per prepararsi al meglio all'ingresso all'università.
The course addresses the thematic of Mechanics and thermodynamics starting from the applications of the experimental method, to better prepare to start the college experience with the fundamental knowledge.
In this course you will learn a whole lot of modern physics (classical and quantum) from basic computer programs that you will download, generalize, or write from scratch, discuss, and then hand in. Join in if you are curious (but not necessarily knowledgeable) about algorithms, and about the deep insights into science that you can obtain by the algorithmic approach.