Cracking the AP: Physics B & C ExamsThe 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. |
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Page 22
... height and , for the shaded rectangle shown below , the base is At , and the height is v . So , base x height equals At x v , which is displacement . 10 velocity , v ( m / s ) 5 4 5 6 0 1 2 3 time ( s ) V -5 -10 At Signed area ...
... height and , for the shaded rectangle shown below , the base is At , and the height is v . So , base x height equals At x v , which is displacement . 10 velocity , v ( m / s ) 5 4 5 6 0 1 2 3 time ( s ) V -5 -10 At Signed area ...
Page 368
... height of the image is h1 = | m | · h1 = 2 ( 4 cm ) = 6 cm Example 16.13 An object of height 4 cm is placed 20 cm in front of a convex mirror whose focal length is -30 cm . ( a ) Where's the image ? ( b ) Is it real or virtual ? ( c ) ...
... height of the image is h1 = | m | · h1 = 2 ( 4 cm ) = 6 cm Example 16.13 An object of height 4 cm is placed 20 cm in front of a convex mirror whose focal length is -30 cm . ( a ) Where's the image ? ( b ) Is it real or virtual ? ( c ) ...
Page 375
... height of the image is h = mh = 1.2 ( 11 cm ) = 13 cm These results are illustrated in Example 16.18 . Solution . Example 16.21 An object of height 11 cm is placed 48 cm in front of a diverging lens with a focal length of -24.5 cm . ( a ) ...
... height of the image is h = mh = 1.2 ( 11 cm ) = 13 cm These results are illustrated in Example 16.18 . Solution . Example 16.21 An object of height 11 cm is placed 48 cm in front of a diverging lens with a focal length of -24.5 cm . ( a ) ...
Contents
KINEMATICS | 13 |
NEWTONS LAWS | 35 |
WORK ENERGY AND POWER | 55 |
Copyright | |
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4περ acceleration amplitude angle angular axis ball Big Five block capacitance capacitor center of mass centripetal charge q circuit circular collision component Conservation constant crate cylinder decreases denoted density diagram direction displacement distance dot product electric field electric force electrical potential energy electrons equal equation equilibrium Example F₁ F₂ frequency Gauss's Law Gaussian surface given graph gravitational heat height horizontal increases K₁ kinetic energy length linear momentum loop m/sē m₁ m₂ magnetic field magnetic flux magnetic force magnitude maximum motion moving negative object orbit oscillations parallel particle perpendicular plane plate positive potential difference proton R₁ R₂ radius resistance resistor right-hand rule rope scalar Second Law simple harmonic Solution speed sphere spring static friction temperature torque U₁ upward v₁ vector velocity vertical voltage wavelength zero