Sears and Zemansky's University Physics: With Modern PhysicsPearson Addison Wesley, 2004 - 1761 páginas With its time-tested problems, pioneering conceptual and visual pedagogy, and next-generation media package, the Eleventh Edition of Young and Freedman's University Physics is the classic physics textbook with an eye on the future. Using Young & Freedman's research-based ISEE (Identify, Set up, Execute, Evaluate) problem-solving strategy, students develop the physical intuition and problem-solving skills required to tackle the text's extensive high-quality problem sets that have been developed and refined over the past five decades. The completely redesigned, pedagogically consistent artwork and diagrams integrate seamlessly with the text to help students better visualize key concepts. The cornerstone of the media package, MasteringPhysics, provides a library of conceptual tutorials and rigorous multi-step problems that deliver immediate and individualized guidance to each student based on their wrong answers and difficulties and also powers a superior gradebook and student skill-diagnostics profiler. The result is a single, effective solution for assigning uncompromising quality online homework, giving each and every student help where and when they need it, and evaluating students on both an individual and class level. |
Contenido
Standards and Units | 1 |
POTENTIAL ENERGY | 7 |
5 | 80 |
Derechos de autor | |
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Otras ediciones - Ver todas
Sears and Zemansky's University Physics, Volumen1 Hugh D. Young,Roger A. Freedman,Albert Lewis Ford Vista previa limitada - 2004 |
Sears and Zemansky's University Physics: With Modern Physics Hugh D. Young,Roger A. Freedman,Albert Lewis Ford Sin vista previa disponible - 2004 |
Términos y frases comunes
air resistance amplitude angle angular acceleration angular momentum angular speed angular velocity average axis ball block Calculate center of mass coefficient collision components constant speed cylinder density displacement distance earth elastic collision equal equation equilibrium EVALUATE Example Figure fluid force F forces acting free-body diagram frequency friction force frictionless glider graph gravitational force heat horizontal inertia initial instantaneous kg/m³ kinetic energy km/h length m/s² magnitude and direction maximum mechanical energy molecules moment of inertia motion moving negative Newton's second law normal force orbit oscillation particle perpendicular plane position pressure Problem quantity radius ramp rest rope rotation Section shown in Fig shows simple harmonic motion SOLUTION IDENTIFY sound intensity level sound wave string surface t₂ target variable temperature tension tion torque transverse waves upward v₁ vertical volume wavelength weight x-axis x-component zero