Cracking the Advanced Placement Physics B & C Exams
The Princeton Review realizes that acing the AP Physics exam is very different from getting straight As in school. The Princeton Review doesn't try to teach students everything there is to know about physics--only the techniques they'll need to score higher on the exam. There’s a big difference. In Cracking the AP Physics B & C, TPR will teach test takers how to think like the test makers and
• Eliminate answer choices that look right but are planted to fool test takers
• Improve scores by knowing in advance what physics topics are most likely to be tested
• Memorize complicated physics concepts using simple techniques
• Ace the free-response section by practicing on TPR's sample questions
This book includes 2 full-length, simulated AP Physics B & C exams. All of The Princeton Review practice test questions are like the ones test takers will see on the actual exam, and every solution is fully explained.
36 pages matching height in this book
Results 1-3 of 36
What people are saying - Write a review
We haven't found any reviews in the usual places.
WORK ENERGY AND POWER
20 other sections not shown
acceleration amplitude angle axis ball Big Five block capacitance capacitor center of mass centripetal force charge q circuit circular collision component Conservation constant crate cylinder decreases denoted density determine diagram direction displacement distance electric field electric force electrical potential energy electron equal equation equilibrium Example exerted figure frequency Gauss's Law Gaussian surface given graph heat height horizontal increases induced initial kinetic energy length light linear momentum loop magnetic field magnetic flux magnetic force magnitude maximum mirror motion moving negative Newton's normal force object orbit oscillations parallel particle perpendicular plane plate positive potential difference pressure proton radius refraction resistance resistor REVIEW QUESTIONS SECTION right-hand rule rope Second Law simple harmonic sliding Solution sphere spring static friction temperature torque total internal reflection upward velocity vertical voltage wavelength zero