 14.1: True or false: (a) For a simple harmonic oscillator, the period is ...
 14.2: If the amplitude of a simple harmonic oscillator is tripled, by wha...
 14.3: An object attached to a spring exhibits simple harmonic motion with...
 14.4: An object attached to a spring exhibits simple harmonic motion with...
 14.5: Two identical systems each consist of a spring with one end attache...
 14.6: Two systems each consist of a spring with one end attached to a blo...
 14.7: Two systems each consist of a spring with one end attached to a blo...
 14.8: Two systems each consist of a spring with one end attached to a blo...
 14.9: In general physics courses, the mass of the spring in simple harmon...
 14.10: Two massspring systems oscillate with periods and If and the system...
 14.11: Two massspring systems oscillate at frequencies and If and the syst...
 14.12: Two massspring systems and oscillate so that their total mechanical...
 14.13: Two massspring systems and oscillate so that their total mechanical...
 14.14: The length of the string or wire supporting a pendulum bob increase...
 14.15: A lamp hanging from the ceiling of the club car in a train oscillat...
 14.16: Two simple pendulums are related as follows. Pendulum A has a lengt...
 14.17: Two simple pendulums are related as follows. Pendulum Ahas a length...
 14.18: Two simple pendulums are related as follows. Pendulum A has a lengt...
 14.19: True or false: (a) The mechanical energy of a damped, undriven osci...
 14.20: Two damped springmass oscillating systems have identical spring an...
 14.21: Two damped springmass oscillating systems have identical spring co...
 14.22: Two damped, driven springmass oscillating systems have identical d...
 14.23: Two damped, driven springmass oscillating systems have identical m...
 14.24: Two damped, driven simplependulum systems have identical masses, d...
 14.25: Estimate the width of a typical grandfather clocks cabinet relative...
 14.26: A small punching bag for boxing workouts is approximately the size ...
 14.27: For a child on a swing, the amplitude drops by a factor of in about...
 14.28: (a) Estimate the natural period of oscillation for swinging your ar...
 14.29: The position of a particle is given by where is in seconds. What ar...
 14.30: What is the phase constant in (Equation 14.4) if the position of th...
 14.31: A particle of mass begins at rest from and oscillates about its equ...
 14.32: Find (a) the maximum speed, and (b) the maximum acceleration of the...
 14.33: Work for when the particle is initially at and moving with velocity
 14.34: The period of a particle that is oscillating in simple harmonic mot...
 14.35: The period of a particle oscillating in simple harmonic motion is 8...
 14.36: ENGINEERING APPLICATION, CONTEXTRICH Military specifications often...
 14.37: The position of a particle is given by where is in meters and is in...
 14.38: (a) Show that can be written as and determine and in terms of and (...
 14.39: A particle moves at a constant speed of in a circle of radius 40 cm...
 14.40: A particle moves in a 15cmradius circle centered at the origin an...
 14.41: A 2.4kg object on a frictionless hoizontal surface is attached to ...
 14.42: Find the total energy of a system consisting of a 3.0kg object on ...
 14.43: A 1.50kg object on a frictionless horizontal surface oscillates at...
 14.44: A 3.0kg object on a frictionless horizontal surface oscillating at...
 14.45: An object on a frictionless horizontal surface oscillates at the en...
 14.46: A 3.0kg object on a frictionless horizontal surface oscillates at ...
 14.47: A 2.4kg object on a frictionless horizontal surface is attached to...
 14.48: A 5.00kg object on a frictionless horizontal surface is attached t...
 14.49: A 3.0kg object on a frictionless horizonal surface is attached to ...
 14.50: An 85.0kg person steps into a car of mass 2400 kg, causing it to s...
 14.51: A 4.50kg object oscillates on a horizontal spring with an amplitud...
 14.52: An object of mass is suspended from a vertical spring of force cons...
 14.53: An object is hung on the end of a vertical spring and is released f...
 14.54: A suitcase of mass 20 kg is hung from two bungee cords, as shown in...
 14.55: A 0.120kg block is suspended from a spring. When a small pebble of...
 14.56: Referring to 55, find the maximum amplitude of oscillation at which...
 14.57: An object of mass 2.0 kg is attached to the top of a vertical sprin...
 14.58: ENGINEERING APPLICATION A winch cable has a crosssectional area of ...
 14.59: Find the length of a simple pendulum if its frequency for small amp...
 14.60: Find the length of a simple pendulum if its period for small amplit...
 14.61: What would the period of the pendulum in be if the pendulum were on...
 14.62: If the period of a 70.0cmlong simple pendulum is 1.68 s, what is ...
 14.63: A simple pendulum that is set up in the stairwell of a 10 story bu...
 14.64: Show that the total energy of a simple pendulum undergoing oscillat...
 14.65: A simple pendulum of length is attached to a massive cart that slid...
 14.66: The bob at the end of a simple pendulum of length is released from ...
 14.67: A thin 5.0kg uniform disk with a 20cm radius is free to rotate ab...
 14.68: Acircular hoop that has a 50cm radius is hung on a narrow horizont...
 14.69: A 3.0kg plane figure is suspended at a point 10 cm from its center...
 14.70: ENGINEERING APPLICATION, CONTEXTRICH, CONCEPTUAL You have designed...
 14.71: You are given a meterstick and asked to drill a small diameter hole...
 14.72: Figure 1429 shows a uniform disk that has a radius a mass of 6.00 ...
 14.73: Points and on a plane object (Figure 1430), are distances and resp...
 14.74: A physical pendulum consists of a spherical bob of radius and mass ...
 14.75: Figure 1432 shows the pendulum of a clock in your grandmothers hou...
 14.76: A 2.00kg object oscillates on a spring with an initial amplitude o...
 14.77: Show that the ratio of the amplitudes for two successive oscillatio...
 14.78: An oscillator has a period of 3.00 s. Its amplitude decreases by 5....
 14.79: A linearly damped oscillator has a factor of 20. (a) By what fracti...
 14.80: A linearly damped massspring system oscillates at 200 Hz. The time...
 14.81: ENGINEERING APPLICATION Seismologists and geophysicists have determ...
 14.82: A pendulum that is used in your physics laboratory experiment has a...
 14.83: ENGINEERING APPLICATION, CONTEXTRICH You are in charge of monitori...
 14.84: A linearly damped oscillator loses 2.00 percent of its energy durin...
 14.85: Find the resonance frequency for each of the three systems shown in...
 14.86: A damped oscillator loses 3.50 percent of its energy during each cy...
 14.87: A 2.00kg object oscillates on a spring that has a force constant e...
 14.88: ENGINEERING APPLICATION, CONTEXTRICH Suppose you have the same app...
 14.89: MULTISTEP A particles displacement from equilibrium is given by whe...
 14.90: ENGINEERING APPLICATION An astronaut arrives at a new planet, and g...
 14.91: A pendulum clock keeps perfect time on Earths surface. In which cas...
 14.92: Figure 1434 shows a pendulum of length with a bob of mass The bob ...
 14.93: A block that has a mass equal to is supported from below by a frict...
 14.94: A 100kg box hangs from the ceiling of a room suspended from a spri...
 14.95: ENGINEERING APPLICATION The acceleration due to gravity varies with...
 14.96: A small block that has a mass equal to rests on a piston that is vi...
 14.97: Show that for the situations in Figure 1435a and 1435b, the objec...
 14.98: CONTEXTRICH During an earthquake, a horizontal floor oscillates ho...
 14.99: If we attach two blocks that have masses and to either end of a spr...
 14.100: In one of your chemistry labs, you determine that one of the vibrat...
 14.101: If a hydrogen atom in HCl were replaced by a deuterium atom (formin...
 14.102: SPREADSHEET A block of mass resting on a horizontal table is attach...
 14.103: Figure 1437 shows a uniform solid halfcylinder of mass and radius...
 14.104: A straight tunnel is dug through Earth, as shown in Figure 1438. A...
 14.105: MULTISTEP In this problem, derive the expression for the average po...
 14.106: MULTISTEP In this problem, you are to use the result of to derive E...
 14.107: SPREADSHEET The Morse potential, which is often used to model inter...
Solutions for Chapter 14: OSCILLATIONS
Full solutions for Physics for Scientists and Engineers,  6th Edition
ISBN: 9781429201247
Solutions for Chapter 14: OSCILLATIONS
Get Full SolutionsSince 107 problems in chapter 14: OSCILLATIONS have been answered, more than 62959 students have viewed full stepbystep solutions from this chapter. Chapter 14: OSCILLATIONS includes 107 full stepbystep solutions. This textbook survival guide was created for the textbook: Physics for Scientists and Engineers,, edition: 6. This expansive textbook survival guide covers the following chapters and their solutions. Physics for Scientists and Engineers, was written by and is associated to the ISBN: 9781429201247.

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parallel

any symbol
average (indicated by a bar over a symbol—e.g., v¯ is average velocity)

°C
Celsius degree

°F
Fahrenheit degree