Engineering Mechanics: Dynamics (14th E...14th EditionRussell C. Hibbeler Publisher: PEARSONISBN: 9780133915389
Engineering Mechanics: Dynamics (14th E...
Solutions for Engineering Mechanics: Dynamics (14th Edition)
Problem 84P:
If the attached spring has a stiffness k = 2 lb/ft, determine its unstretched length so that it does...Problem 13FP:
Determine the constant angular velocity of the vertical shaft of the amusement ride if = 45....Problem 14FP:
If = ( t2) rad, where t is in seconds, determine the magnitude of force F exerted by the blower on...Problem 15FP:
The 2-Mg car is traveling along the curved road described by r = (50e2) m, where is in radians. If...Problem 16FP:
The 0.2-kg pin P is constrained to move in the smooth curved slot, which is defined by the...Problem 85P:
If the cam is rotating at a constant rate of 6 rad/s, determine the force at the end A of the...Problem 86P:
Determine the magnitude of the resultant force acting on a 5-kg particle at the instant t = 2 s, if...Problem 88P:
Rod OA rotates counterclockwise with a constant angular velocity of = 5 rad/s. The double collar B...Problem 89P:
The boy of mass 40 kg is sliding down the spiral slide at a constant speed such that his position,...Problem 91P:
Using a forked rod, a 0.5-kg smooth peg P is forced to move along the vertical slotted path r = (0.5...Problem 92P:
The arm is rotating at a rate of = 4 rad/s when = 3 rad/s2 and = 180. Determine the force it must...Problem 93P:
If arm OA rotates with a constant clockwise angular velocity of = 1.5 rad/s, determine the force...Problem 94P:
Determine the normal and frictional driving forces that the partial spiral track exerts on the...Problem 95P:
A smooth can C, having a mass of 3 kg, is lifted from a feed at A to a ramp at B by a rotating rod....Problem 98P:
The particle has a mass of 0.5 kg and is confined to move along the smooth vertical slot due to the...Problem 99P:
A car of a roller coaster travels along a track which for a short distance is defined by a conical...Problem 100P:
The 0.5-lb ball is guided along the vertical circular path r = 2rc cos using the arm OA. If the arm...Problem 101P:
The ball of mass misguided along the vertical circular path r = 2rc cos using the arm OA. If the...Problem 102P:
Using a forked rod, a smooth cylinder P, having a mass of 0.4 kg, is forced to move along the...Problem 103P:
The pilot of the airplane executes a vertical loop which in part follows the path of a cardioid, r =...Problem 104P:
The collar has a mass of 2 kg and travels along the smooth horizontal rod defined by the equiangular...Problem 105P:
The particle has a mass of 0.5 kg and is confined to move along the smooth horizontal slot due to...Problem 106P:
Solve Prob. 13-105 If the arm has an angular acceleration of = 3 rad/s2 when = 2 rad/s at = 30.Problem 107P:
The forked rod is used to move the smooth 2-lb particle around the horizontal path in the shape of a...Problem 109P:
Rod OA rotates counterclockwise at a constant angular rate = 4 rad/s. The double collar B is...Problem 110P:
Solve Prob. 13-109 if motion is in the vertical plane.Browse All Chapters of This Textbook
Chapter 12.2 - Rectilinear kinematics: Continuous MotionChapter 12.3 - Rectilinear kinematics: Erratic MotionChapter 12.6 - Motion Of A ProjectileChapter 12.7 - Curvilinear Motion: Normal And Tangential ComponentsChapter 12.8 - Curvilinear Motion: Cylindrical ComponentsChapter 12.10 - Relative-Motion Of Two Particles Using Translating AxesChapter 13.4 - Equations Of Motion: Rectangular CoordinatesChapter 13.5 - Equations Of Motion: Normal And Tangential CoordinatesChapter 13.6 - Equations Of Motion: Cylindrical CoordinatesChapter 13.7 - Central-Force Motion And Space Mechanics
Chapter 14.3 - Principle Of Work And Energy For A System Of ParticlesChapter 14.4 - Power And EfficiencyChapter 14.5 - Conservative Forces And Potential EnergyChapter 15.2 - Principle Of Linear Impulse And Momentum For A System Of ParticlesChapter 15.3 - Conservation Of Linear Momentum For A System Of ParticlesChapter 15.4 - ImpactChapter 15.7 - Principle Of Angular Impulse And MomentumChapter 15.9 - Propulsion With Variable MassChapter 16.3 - Rotation About A Fixed AxisChapter 16.4 - Absolute Motion AnalysisChapter 16.5 - Relative-Motion Analysis: VelocityChapter 16.6 - Instataneous Center Of Zero VelocityChapter 16.7 - Relative-Motion Analysis: AccelerationChapter 16.8 - Relative-Motion Analysis Using Rotating AxesChapter 17.1 - Mass Moment Of InertiaChapter 17.3 - Equations Of Motion: TranslationChapter 17.4 - Equations Of Motion: Rotation About A Fized AxisChapter 17.5 - Equations Of Motion: General Plane MotionChapter 18.4 - Principle Of Work And EnergyChapter 18.5 - Conservation Of EnergyChapter 19.2 - Principle Of Impulse And MomentumChapter 19.4 - Eccentric ImpactChapter 20.3 - General MotionChapter 20.4 - Relative-Motion Analysis Using Translating And Rotating AxesChapter 21.1 - Moments And Products Of InertiaChapter 21.3 - Kinetic EnergyChapter 21.4 - Equations Of MotionChapter 21.6 - Torque-Free MotionChapter 22.1 - Undamped Free VibrationChapter 22.2 - Energy MethodsChapter 22.6 - Electrical Circuit Analogs
Book Details
A Proven Approach to Conceptual Understanding and Problem-solving Skills. Engineering Mechanics: Dynamics excels in providing a clear and thorough presentation of the theory and application of engineering mechanics. Engineering Mechanics empowers students to succeed by drawing upon Professor Hibbeler's everyday classroom experience and his knowledge of how students learn. This text is shaped by the comments and suggestions of hundreds of reviewers in the teaching profession, as well as many of the author’s students.
The Fourteenth Edition includes new Preliminary Problems, which are intended to help students develop conceptual understanding and build problem-solving skills. The text features a large variety of problems from a broad range of engineering disciplines, stressing practical, realistic situations encountered in professional practice, and having varying levels of difficulty.
The Fourteenth Edition includes new Preliminary Problems, which are intended to help students develop conceptual understanding and build problem-solving skills. The text features a large variety of problems from a broad range of engineering disciplines, stressing practical, realistic situations encountered in professional practice, and having varying levels of difficulty.
Sample Solutions for this Textbook
We offer sample solutions for Engineering Mechanics: Dynamics (14th Edition) homework problems. See examples below:
Chapter 12.2, Problem 1PPChapter 13.4, Problem 1PPChapter 14.3, Problem 1PPChapter 15.2, Problem 1PPChapter 16.3, Problem 1FPChapter 17.1, Problem 1PChapter 18.4, Problem 1PPChapter 19.2, Problem 1PPWrite the expression of angular acceleration at constant speed. (ω˙x)XYZ=(ω˙x)xyz+Ω×ωx (I) Write the...
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