Schaum's Outline of Theory and Problems of Applied Physics
From the Back Cover -- Master applied physics and ace your exams with this easy-to-follow guide that pumps up your problem-solving skills and reduces the time you need to spend studying! Students love Schaum's Outlines! Each and every year, students purchase hundreds of thousands of the best study guides available anywhere. Students know that Schaum's delivers the goodsin faster learning curves, better test scores, and higher grades! If you don't have a lot of time but want to excel in class, this book helps you: -Brush up before tests -Find answers fast -Study quickly and more effectively -Get the big picture without spending hours poring over lengthy textbooks Schaum's Outlines give you the information teachers expect you to know in a handy and succinct formatwithout overwhelming you with unnecessary details. You get a complete overview of the subjectand no distracting minutiae. Plus, you get plenty of practice exercises to test your skill. Compatible with any classroom text, Schaum's lets you study at your own pace and reminds you of all the important facts you need to remember—fast! And Schaum's is so complete it's the perfect tool for preparing for graduate or professional exams! Inside, you will find: -810 detailed problems, including step-by-step solutions -1,009 additional practice problems, with answers supplied -400 multiple choice questions with answers -Easy-to-follow guidance on the practice and theory of mechanics, electricity, and optics -Understandable explanations of all topics, with accompanying sample problems and solutions If your goal is better comprehension and top grades, this powerful study tool used independently or with your text is the best tutor you can have!
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acceleration angle angular velocity Answers to Multiple-Choice Answers to Supplementary applied atom ball battery beam body capacitance capacitor charge circuit cm long coefficient coil component connected constant cross-sectional area density diameter direction electric field electrons engine equal equation equivalent resistance exerts Find focal length forbidden band frequency friction ft/s gravity heat Hence horizontal image distance index of refraction inductor input internal resistance kinetic energy km/h lens light liquid loop luminous flux magnetic field magnitude mass maximum mirror molecules moment of inertia momentum motion moving Multiple-Choice Questions negative neutrons nucleus object output parallel percent perpendicular piston potential difference pressure Prob protons pulley quantity rad/s radiation radius resistor rev/min rope rotation shown in Fig simple harmonic motion SOLVED PROBLEM sound intensity level Supplementary Problems surface temperature torque vector voltage volume wavelength waves weight wire