Pearson eText for College Physics: Expl...2nd EditionEugenia Etkina, Gorazd Planinsic Publisher: PEARSON+ISBN: 9780137443000
Pearson eText for College Physics: Expl...
Solutions for Pearson eText for College Physics: Explore and Apply -- Instant Access (Pearson+)
Problem 1RQ:
Review Question 10.1 Can we say that the period of vibration depends on the frequency or that the...Problem 3RQ:
Review Question 10.3
What will happen to the period of a cart on a spring if you attach a second...Problem 4RQ:
Review Question 10.4 The period of vibration of a cart on a spring is 2.0 s. The elastic potential...Problem 5RQ:
Review Question 10.5 Your grandfathers pendulum clock is slow. How should you adjust the position of...Problem 6RQ:
Why was it important to assume that the springs obey Hooke’s law in Examples 10.7 and 10.8?
Problem 7RQ:
Review Question 10.7 What features of damped vibrational motion make it different from SHM?Problem 8RQ:
Review Question 10.8 Describe the phenomenon of energy transfer by resonance and explain why it...Problem 1MCQ:
1. What are the features that make vibrational motion different from circular motion? Choose all...Problem 2MCQ:
2. What does it mean if the amplitude of an object’s vibration is constant and equal to 0.10 m?
a....Problem 3MCQ:
3. What does it mean if the period of an object’s vibration equals 0.60 s?
a. The motion lasts for...Problem 4MCQ:
4. What is the period of the kinetic or the potential energy change if the period of position change...Problem 5MCQ:
5. A cart undergoing simple harmonic motion has a 2.0-Hz frequency and 3.0-cm amplitude. At time...Problem 6MCQ:
The period of the object attached to a spring is T. How much time does the object need to move from...Problem 7MCQ:
You have a simple harmonic oscillator. Where is its acceleration zero? a. At the equilibrium...Problem 8MCQ:
You have a simple harmonic oscillator. Where is the magnitude of its acceleration at its maximum? a....Problem 9MCQ:
Which of the following arguments can be used to support the statement that an object attached to a...Problem 10CQ:
10. (a) Give three common examples of vibrational motion with damping. Explain the reasons for the...Problem 11CQ:
An object of known mass hangs at the end of a spring, causing it to stretch a distance L. How can...Problem 12CQ:
Describe two different ways to estimate the spring constant of a rubber band using only a 100-g...Problem 13CQ:
You have a small metal ball attached to a 1.0-m string. Explain two different methods that you can...Problem 15CQ:
What simplifications were used to derive the formula for the period of vibration of an object at the...Problem 16CQ:
A pendulum clock is moved from the Mississippi Delta region to the Rocky Mountains. Will the clock...Problem 17CQ:
17. Oil is often found in a geological structure called a salt dome. The rock in the salt dome is...Problem 19CQ:
A pendulum and a block hanging at the end of a spring are both carefully adjusted to make one...Problem 20CQ:
Will me frequency of vibration of a swing when you stand on the swing be greater or less than when...Problem 22CQ:
The amplitude of vibration of a swing slowly decreases to zero if you do not pump your legs while...Problem 23CQ:
23. If you walk with your arms hanging down, they often oscillate forward and back at the same...Problem 24CQ:
You have a pendulum with a 1-m string. What is the period of vibration of the pendulum when it is...Problem 1P:
1. A low-friction cart is placed between two identical springs that are attached to rigid walls as...Problem 2P:
* You have a ball bearing ano a bowl. You let the ball roll down from the top of the bow; it moves...Problem 3P:
3. Draw a sketch of a pendulum indicate the equilibrium position. Show this object vibrating and...Problem 5P:
Draw a graph showing the position-versus-time curve for a simple harmonic oscillator (a) with twice...Problem 6P:
Suppose that at time zero the can attached to the spring such as shown in Figure 10.8 is released...Problem 7P:
* (a) Sketch a motion diagram and a position-versus-time graph for the motion of a cart attached to...Problem 8P:
* Devise a position-versus-time function that describes me simple harmonic motion of an object of...Problem 9P:
* The position of a vibrating object changes as a function of time as x=(0.2m) cos [(s1)t] Say...Problem 10P:
* The velocity of a vibrating object changes as a function of time as v=(0.6m/s)cos[ (2s1)t ]. (a)...Problem 11P:
11. * A cart at the end of a spring undergoes simple harmonic motion of amplitude 10 cm and...Problem 13P:
You exert a 100-N pull on the end of a spring. When you increase the force by 20% to 120 N, the...Problem 14P:
Metronome You want to make a metronome for music practice. You use a 30-g object attached to a...Problem 16P:
16. * A spring with a cart at its end vibrates at frequency 6.0 Hz. (a) Determine the period of...Problem 17P:
17. A cart with mass m vibrating at the end of a spring has an extra block added to it when its...Problem 18P:
18. * A 300-g apple is placed on a horizontal platform that can vibrate in the vertical direction...Problem 19P:
** A 2.0-kg cart vibrates at the end of an 18-N/m spring with the amplitude of 3.0 cm. (a) Make a...Problem 20P:
* What were the main ideas that we used to derive the expression for the period of an object...Problem 21P:
21. * A spring with a spring constant of 1200 N/m has a 55-g ball at its end (a) if the energy of...Problem 22P:
22. * A person exerts a 15-N force on a cart attached to a spring and holds the cart steady. The...Problem 23P:
23. A spring with spring constant has a 1.4-kg cart at its end. (a) If its amplitude of vibration...Problem 24P:
* Proportional reasoning By what factor must we increase the amplitude of vibration of an object at...Problem 25P:
Proportional reasoning By what factor must we increase the amplitude of vibration of an object at...Problem 26P:
26. Monkey trick at zoo A monkey has a cart with a horizontal spring attached to it that she uses...Problem 27P:
27. * A frictionless cart attached to a spring vibrates with amplitude A. (a) What fraction of the...Problem 28P:
A 2.0-kg cart attached to a spring undergoes simple harmonic motion so that its displacement is...Problem 29P:
29 * The motion of a cart attached to a horizontal spring is described as Say everything you can...Problem 30P:
30. Pendulum clock Shawn wants to build a clock whose pendulum makes one swing back and forth each...Problem 31P:
Show that the expression for the frequency of a pendulum as a function of its length is...Problem 32P:
A pendulum swings with amplitude 0.020 m and period of 2.0 s. What is its maximum speed?Problem 33P:
33. * Proportional reasoning You are designing a pendulum clock whose period can be adjusted by 10%...Problem 34P:
34. * Building demolition A 500-kg ball at the end of a 30-m cable suspended from a crane is used to...Problem 35P:
35. * You have a pendulum with a long string whose length you can vary but cannot measure, a small...Problem 36P:
* Variations in g The frequency of a person's pendulum is 0.3204 Hz when at a location where g is...Problem 37P:
37. EST A graph of position versus time for an object undergoing simple harmonic motion is shown in...Problem 38P:
Determine the period of a 1.3-m-long pendulum on the Moon where the free-fall acceleration is...Problem 39P:
* You have a simple pendulum that consists of a small metal ball attached to a long string You push...Problem 40P:
* Equation Jeopardy The following expression describes a situation involving vibrational motion...Problem 41P:
41. * Trampoline vibration When a 60-kg boy sits at rest on a trampoline. it sags 0.10 m at the...Problem 42P:
* Proportional reasoning if you double the amplitude of vibration of an object at the end of a...Problem 43P:
43. * Pendulum on Mars The frequency of a pendulum is less when on Mars than when on Earth s...Problem 44P:
44. * bio EST Annoying sound low-frequency vibrations (less than 5 Hz) produced by a certain buzzer...Problem 45P:
45.** A 1.2-kg block sliding at 6.0 m/s on a frictionless surface runs into and sticks to a spring....Problem 46P:
108 kg. The tower sways back and forth at a frequency of about 0.10Hz. (a) Estimate the effective...Problem 47P:
** You shoot a 0.050-kg arrow into a 0.50-kg wooden cart that sits on a horizontal, frictionless...Problem 48P:
48. * You have a pendulum whose length is 1.3 m and bob mass is 0.20 kg. The amplitude of vibration...Problem 49P:
* You hang a 0.10-kg block from a spring, causing the spring to stretch 0.070 m. When the block is...Problem 50P:
50. * imagine that you have a cart on a spring that moves on a horizontal surface with no friction....Problem 51P:
51. Describe one situation from everyday life in which large damping is desirable and one in which...Problem 52P:
EST twins on a swing How frequently do you need to push a swing with twin brothers on it compared to...Problem 53P:
53. (a) Determine the maximum speed of a girl on a 3.0-m-iong swing when the amplitude of vibration...Problem 55P:
55. * Feeling road vibrations in a car if the average distance between bumps on a road is about 10 m...Problem 57GP:
57. A spring oscillator and a simple pendulum have equal natural frequencies on Earth. Determine the...Problem 58GP:
* You attach a block (mass m) to a spring (spring constant k) that oscillates in a vertical...Problem 59GP:
* You attach a 1.6-kg object to a spring, pull it down 0.12 m from the equilibrium position, and let...Problem 60GP:
60. * Traveling through Earth A hole is drilled through the center of Earth The gravitational force...Problem 61GP:
61. * EST Estimate the effective spring constant of the suspension system of a car. Describe your...Problem 62GP:
*Galileos pendulum The length L of a pendulum is shortened when the string encounters a peg placed a...Problem 63GP:
63. * A 0.5-kg low-friction cart is moving at constant speed of 1.7 m/s to the left along a...Problem 66GP:
103N/m. Determine (a) by how much the ball compresses during the collision with the floor and (b)...Problem 67GP:
67. * A 5.0-g bullet traveling horizontally at an unknown speed hits and embeds itself in a 0.195-kg...Problem 68GP:
at the start of the swinging. (a) Determine an expression for the energy of the bob-Earth system....Problem 70GP:
70. ** Foucault's pendulum in 1851, the French physicist. Jean Foucault hung a large iron ball on a...Problem 71GP:
pushed to the left with initial speed v0. Determine the final frequency and amplitude of a vibrating...Problem 78RPP:
BIO Resonance vibration transfer and the ear When you push a person on a swing. a series of snail...Problem 79RPP:
BIO Resonance vibration transfer and the ear When you push a person on a swing. a series of snail...Problem 80RPP:
BIO Resonance vibration transfer and the ear When you push a person on a swing, a series of snail...Browse All Chapters of This Textbook
Chapter 2 - Kinematics: Motion In One DimensionChapter 3 - Newtonian MechanicsChapter 4 - Applying Newton’s LawsChapter 5 - Circular MotionChapter 6 - Impulse And Linear MomentumChapter 7 - Work And EnergyChapter 8 - Extended Bodies At RestChapter 9 - Rotational MotionChapter 10 - Vibrational MotionChapter 11 - Mechanical Waves
Chapter 12 - GasesChapter 13 - Static FluidsChapter 14 - Fluids In MotionChapter 15 - First Law Of ThermodynamicsChapter 16 - Second Law Of ThermodynamicsChapter 17 - Electric Charge, Force, And EnergyChapter 18 - The Electric FieldChapter 19 - Dc CircuitsChapter 20 - MagnetismChapter 21 - Electromagnetic InductionChapter 22 - Reflection And RefractionChapter 23 - Mirrors And LensesChapter 24 - Wave OpticsChapter 25 - Electromagnetic WavesChapter 26 - Special RelativityChapter 27 - Quantum OpticsChapter 28 - Atomic PhysicsChapter 29 - Nuclear PhysicsChapter 30 - Particle Physics
Sample Solutions for this Textbook
We offer sample solutions for Pearson eText for College Physics: Explore and Apply -- Instant Access (Pearson+) homework problems. See examples below:
Chapter 2, Problem 1RQChapter 3, Problem 1RQChapter 4, Problem 1RQChapter 5, Problem 1RQChapter 6, Problem 1RQChapter 7, Problem 1RQIntroduction: Center of mass is a point where the complete mass of any object is said to be...Chapter 9, Problem 1RQChapter 10, Problem 1RQ
Chapter 11, Problem 1RQIntroduction: The following mechanisms can be logically constructed to understand the reason behind...Chapter 13, Problem 1RQIntroduction: Bernoulli’s principle states that fluids moving at a faster velocity have lesser...Chapter 15, Problem 1RQIntroduction: Energy of an isolated system, such as the universe always remains constant, as stated...Chapter 17, Problem 1RQChapter 18, Problem 1RQChapter 19, Problem 1RQChapter 20, Problem 1RQChapter 21, Problem 1RQIntroduction: Experimentally, it has been observed that, the projection on the wall will be upside...Chapter 23, Problem 1RQChapter 24, Problem 1RQChapter 25, Problem 1RQChapter 26, Problem 1RQIntroduction: Planck’s hypothesis stated that an accelerated charged particle can radiate an...Introduction: The Rutherford atomic model is also known as the planetary or nuclear model of an...Introduction: Rutherford, in 1899, conducted an experiment in which he set up two parallel metal...Introduction: Beta decay is referred to as the transformation of protons into neutrons and...
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