16.5 Energy and the simple harmonic oscillator

College physics Page 1 / 2

Determine the maximum speed of an oscillating system.

To study the energy of a simple harmonic oscillator, we first consider all the forms of energy it can have We know from Hooke’s Law: Stress and Strain Revisited that the energy stored in the deformation of a simple harmonic oscillator is a form of potential energy given by:

{PE}_{el} = \frac{1}{2} {kx}^{2} .

Because a simple harmonic oscillator has no dissipative forces, the other important form of energy is kinetic energy $KE$ . Conservation of energy for these two forms is:

KE + {PE}_{el} = constant

\frac{1}{2} {mv}^{2} + \frac{1}{2} {kx}^{2} = constant.

This statement of conservation of energy is valid for all simple harmonic oscillators, including ones where the gravitational force plays a role

Namely, for a simple pendulum we replace the velocity with $v = Lω$ , the spring constant with $k = mg / L$ , and the displacement term with $x = Lθ$ . Thus

\frac{1}{2} {mL}^{2} ω^{2} + \frac{1}{2} mgL θ^{2} = constant.

In the case of undamped simple harmonic motion, the energy oscillates back and forth between kinetic and potential, going completely from one to the other as the system oscillates. So for the simple example of an object on a frictionless surface attached to a spring, as shown again in [link] , the motion starts with all of the energy stored in the spring. As the object starts to move, the elastic potential energy is converted to kinetic energy, becoming entirely kinetic energy at the equilibrium position. It is then converted back into elastic potential energy by the spring, the velocity becomes zero when the kinetic energy is completely converted, and so on. This concept provides extra insight here and in later applications of simple harmonic motion, such as alternating current circuits.

Figure a shows a spring on a frictionless surface attached to a bar or wall from the left side, and on the right side of it there’s an object attached to it with mass m, its amplitude is given by X, and x equal to zero at the equilibrium level. Force F is applied to it from the right side, shown with left direction pointed red arrow and velocity v is equal to zero. A direction point showing the north and west direction is also given alongside this figure as well as with other four figures. The energy given here for the object is given according to the velocity. In figure b, after the force has been applied, the object moves to the left compressing the spring a bit, and the displaced area of the object from its initial point is shown in sketched dots. F is equal to zero and the V is max in negative direction. The energy given here for the object is given according to the velocity. In figure c, the spring has been compressed to the maximum level, and the amplitude is negative x. Now the direction of force changes to the rightward direction, shown with right direction pointed red arrow and the velocity v zero. The energy given here for the object is given according to the velocity. In figure d, the spring is shown released from the compressed level and the object has moved toward the right side up to the equilibrium level. F is zero, and the velocity v is maximum. The energy given here for the object is given according to the velocity. In figure e, the spring has been stretched loose to the maximum level and the object has moved to the far right. Now again the velocity here is equal to zero and the direction of force again is to the left hand side, shown here as F is equal to zero. The energy given here for the object is given according to the velocity. — The transformation of energy in simple harmonic motion is illustrated for an object attached to a spring on a frictionless surface.

The conservation of energy principle can be used to derive an expression for velocity $v$ . If we start our simple harmonic motion with zero velocity and maximum displacement ( $x = X$ ), then the total energy is

\frac{1}{2} {kX}^{2} .

This total energy is constant and is shifted back and forth between kinetic energy and potential energy, at most times being shared by each. The conservation of energy for this system in equation form is thus:

\frac{1}{2} {mv}^{2} + \frac{1}{2} {kx}^{2} = \frac{1}{2} {kX}^{2} .

Solving this equation for $v$ yields:

v = \pm \sqrt{\frac{k}{m} (X^{2} - x^{2})} .

Manipulating this expression algebraically gives:

v = \pm \sqrt{\frac{k}{m}} X \sqrt{1 - \frac{x^{2}}{X^{2}}}

and so

v = \pm v_{max} \sqrt{1 - \frac{x^{2}}{X^{2}}},

where

v_{max} = \sqrt{\frac{k}{m}} X .

From this expression, we see that the velocity is a maximum ( $v_{max}$ ) at $x = 0$ , as stated earlier in $v (t) = - v_{max} sin \frac{2π t}{T}$ . Notice that the maximum velocity depends on three factors. Maximum velocity is directly proportional to amplitude. As you might guess, the greater the maximum displacement the greater the maximum velocity. Maximum velocity is also greater for stiffer systems, because they exert greater force for the same displacement. This observation is seen in the expression for $v_{max};$ it is proportional to the square root of the force constant $k$ . Finally, the maximum velocity is smaller for objects that have larger masses, because the maximum velocity is inversely proportional to the square root of $m$ . For a given force, objects that have large masses accelerate more slowly.

Questions & Answers

how to create a software using Android phone

Wiseman Reply

how

basra

what is the difference between C and C++.

Yan Reply

what is software

Sami Reply

software is a instructions like programs

Shambhu

what is the difference between C and C++.

Yan

yes, how?

Hayder

what is software engineering

Ahmad

software engineering is a the branch of computer science deals with the design,development, testing and maintenance of software applications.

Hayder

who is best bw software engineering and cyber security

Ahmad

Both software engineering and cybersecurity offer exciting career prospects, but your choice ultimately depends on your interests and skills. If you enjoy problem-solving, programming, and designing software syste

Hayder

what's software processes

Ntege Reply

I haven't started reading yet. by device (hardware) or for improving design Lol? Here. Requirement, Design, Implementation, Verification, Maintenance.

Vernon

I can give you a more valid answer by 5:00 By the way gm.

Vernon

it is all about designing,developing, testing, implementing and maintaining of software systems.

Ehenew

hello assalamualaikum

Sami

My name M Sami I m 2nd year student

Sami

what is the specific IDE for flutter programs?

Mwami Reply

jegudgdtgd my Name my Name is M and I have been talking about iey my papa john's university of washington post I tagged I will be in

Mwaqas Reply

yes

usman

how disign photo

atul Reply

hlo

Navya

Michael

yes

Subhan

Show the necessary steps with description in resource monitoring process (CPU,memory,disk and network)

samuel Reply

What is software engineering

Tafadzwa Reply

Software engineering is a branch of computer science directed to writing programs to develop Softwares that can drive or enable the functionality of some hardwares like phone , automobile and others

kelvin

if any requirement engineer is gathering requirements from client and after getting he/she Analyze them this process is called

Alqa Reply

The following text is encoded in base 64. Ik5ldmVyIHRydXN0IGEgY29tcHV0ZXIgeW91IGNhbid0IHRocm93IG91dCBhIHdpbmRvdyIgLSBTdGV2ZSBXb3puaWFr Decode it, and paste the decoded text here

Julian Reply

what to do you mean

Vincent

hello

ALI

how are you ?

ALI

What is the command to list the contents of a directory in Unix and Unix-like operating systems

George Reply

how can i make my own software free of cost

Faizan Reply

like how

usman

Hayder

The name of the author of our software engineering book is Ian Sommerville.

Doha Reply

what is software

Sampson Reply

the set of intruction given to the computer to perform a task

Noor

Got questions? Join the online conversation and get instant answers!

Jobilize.com Reply

<< Chapter < Page Page > Chapter >>

Read also:

Get Jobilize Job Search Mobile App in your pocket Now!

100% Free Mobile Applications
Receive real-time job alerts and never miss the right job again

Source: OpenStax, College physics. OpenStax CNX. Jul 27, 2015 Download for free at http://legacy.cnx.org/content/col11406/1.9

Google Play and the Google Play logo are trademarks of Google Inc.

Notification Switch

Would you like to follow the 'College physics' conversation and receive update notifications?

Ask

	2 Energy and the simple harmonic oscillator By OpenStax Read Online Course
	13 AP Key Terms 13 Anatomy of the Nervous System By OpenStax Start Key Terms
	Economy Foundations By Robert Murphy Start Test
	Microeconomics Test 1 By IES Portal Start Test
	8 Biology 08 Photosynthesis MCQ By OpenStax Start Quiz
	21 AP 21 Lymphatic Immune System MCQ By OpenStax Start Quiz
	2 AP 02 Chemical Level of Organization MCQ By OpenStax Start Quiz
	11 AP 11 Muscular System MCQ By OpenStax Start Quiz
©flickr: BK	Self Confidence By Miranda Reising Start Quiz
	Classical Music By Marion Cabalfin Start Quiz
	2 CDL Quiz - Air Brakes Endorsement Part 2 By Jazzycazz Jackson Start Quiz