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In [[physics]], '''jerk''', also known as '''jolt''', '''surge''', or '''lurch''', is the rate of change of [[acceleration]]; that is, the [[derivative]] of acceleration with respect to time, the [[second derivative]] of [[velocity]], or the third derivative of [[position (vector)|position]]. Jerk is defined by any of the following equivalent expressions:
Singer and actress Jennifer Lopez is to open a chain of 15 mobile phone stores in the US targeted at Latinos.<br><br>The Jenny From The Block performer is majority owner of Viva Movil as well as its "chief creative officer" and marketing face of the brand.<br>[http://www.humitech.co.nz/images/beats-by-dre.asp dre beats nz] The company promises a "culturally relevant" experience with bilingual staff, the company said.<br>Lopez - also known as J-Lo - is the latest in a growing line of celebrities getting involved in technology retail.<br><br>Performers such as Will.i.am from the Black Eyed Peas have shown keen involvement - taking on roles as "creative figureheads" in companies looking to expand their target market.<br>More recently, singer Alicia Keys has been the public face of Blackberry, an image that slipped slightly when she was seen to tweet not from the firm's new smartphone, but from an iPhone instead. She blamed the tweet on "hackers".<br><br>Most notably, Beats By Dre headphones - endorsed and part-designed by rapper Dr Dre - have been a runaway success, bringing in revenues into the hundreds of [https://www.Google.com/search?hl=en&gl=us&tbm=nws&q=millions millions].<br>'Growing demographic' [https://www.Google.com/search?hl=en&gl=us&tbm=nws&q=Jennifer+Lopez%27s&btnI=lucky Jennifer Lopez's] plans do not as yet involve designing technology, but rather a retail experience tailored towards the Latin American community.<br>"Latinos need a place to go and they need to be catered to because it is such a growing, growing demographic and market and people want to capture that, and they deserve to be catered to," she said in an interview.<br><br>The store will be an authorised reseller of products available on the Verizon network, which includes devices such as a the iPhone and Samsung Galaxy.<br>The Associated Press has noted that previous attempts at marketing directly to Latinos have centred around low-cost, contract-free offerings - not high-end phones on monthly plans.<br>The news agency added that some previous attempts to market directly to Latin Americans have proved unsuccessful. Movida Communications, a firm offering Spanish-language mobile services that launched in 2007, closed after less than [http://www.humitech.co.nz/images/beats-by-dre.asp dre beats nz] a year in operation.<br><br>The first Viva Movil store will open in New York on 15 June, with others in Miami and Los Angeles to follow.
 
:<math>\vec j=\frac {\mathrm{d} \vec a} {\mathrm{d}t}=\frac {\mathrm{d}^2 \vec v} {\mathrm{d}t^2}=\frac {\mathrm{d}^3 \vec r} {\mathrm{d}t^3}</math>
where
:<math>\vec a</math> is acceleration,
:<math>\vec v</math> is velocity,
:<math>\vec r</math> is position,
:<math>\mathit{t}</math> is time.
 
Jerk is a vector, and there is no generally used term to describe its scalar magnitude (e.g., "speed" as the scalar magnitude for velocity).
 
The [[SI base unit|SI units]] of jerk are [[metre]]s per [[second]] cubed (metres per second per second per second, m/s<sup>3</sup>, or m·s<sup>−3</sup>)=100 [[Gal (unit)|Gal]] per second in [[CGS]] units. There is no universal agreement on the symbol for jerk, but ''j'' is commonly used. [[Newton's notation]] for the derivative of acceleration <math>(\dot{a})</math> can also be used, especially when "surge" or "lurch" is used instead of "jerk" or "jolt".
 
If acceleration can be felt by a body as the force (hence pressure) exerted by the object bringing about the acceleration on the body, jerk can be felt as the change in this pressure. For example a passenger in an accelerating vehicle with zero jerk will feel a constant force from the seat on his or her body; whereas positive jerk will be felt as increasing force on the body, and negative jerk as decreasing force on the body.
 
== Applications ==
Normally concerning forces, speed and acceleration are used for analysis. For example, the "jerk" produced by falling from [[outer space]] to the Earth is not particularly useful given the [[gravitational acceleration]] changes very slowly. Sometimes the analysis has to extend to jerk for a particular reason.
 
Jerk is often used in [[engineering]], especially when building [[roller coaster]]s.<ref name="thetartan2007">{{cite web|url=http://thetartan.org/2007/4/16/scitech/work |title=How Things Work: Roller Coasters - The Tartan Online |publisher=Thetartan.org |date=2007-04-16 |accessdate=2013-09-15}}</ref> Some precision or fragile objects&nbsp;— such as passengers, who need time to sense stress changes and adjust their muscle tension or suffer conditions such as [[Whiplash (medicine)|whiplash]]&nbsp;— can be safely subjected not only to a maximum acceleration, but also to a maximum jerk.<ref name="thetartan2007"/>  Even where occupant safety isn't an issue, excessive jerk may result in an uncomfortable ride on [[elevator]]s, [[tram]]s and the like, and engineers expend considerable design effort to minimize it. Jerk may be considered when the excitation of vibrations is a concern. A device that measures jerk is called a "jerkmeter".
 
Jerk is also important to consider in [[manufacturing]] processes. Rapid changes in acceleration of a cutting tool can lead to premature tool wear and result in uneven cuts. This is why modern motion controllers include jerk limitation features.
 
In mechanical engineering, jerk is considered, in addition to velocity and acceleration, in the development of cam profiles because of [[tribology|tribological]] implications and the ability of the actuated body to follow the cam profile without [[Machining vibrations|chatter]].<ref>Blair, G., "Making the Cam", ''Race Engine Technology '' 10, September/October 2005</ref>
 
===Third-order motion profile===
In motion control, a common need is to move a system from one steady position to another (point-to-point motion). Following the fastest possible motion within an allowed maximum value for speed, acceleration, and jerk, will result in a third-order motion profile as illustrated below:
 
[[File:Third-order motion profile.svg]]
 
The motion profile consists of up to seven segments defined by the following:<ref>There is an idealization here that the jerk can be changed from zero to a constant non-zero value instantaneously. However, since in [[classical mechanics]] all forces are caused by [[smooth function|smooth]] [[field (physics)|fields]], all derivatives of the position are continuous. On the other hand, this is also an idealization; in [[quantum field theory]] particles do change momentum discontinuously.</ref>
# acceleration build-up, with maximum positive jerk
# constant maximum acceleration (zero jerk)
# acceleration ramp-down, approaching the desired maximum velocity, with maximum negative jerk
# constant maximum speed (zero jerk, zero acceleration)
# deceleration build-up, approaching the desired deceleration, with maximum negative jerk
# constant maximum deceleration (zero jerk)
# deceleration ramp-down, approaching the desired position at zero velocity, with maximum positive jerk
If the initial and final positions are sufficiently close together, the maximum acceleration or maximum velocity may never be reached.
 
=== Jerk systems ===
A ''jerk system'' is a system whose behavior is described by a ''jerk equation'', which is an equation of the form {{harv|Sprott|2003}}:
 
:<math>\frac{\mathrm{d}^3 x}{\mathrm{d} t^3}=
f\left(\frac{\mathrm{d}^2 x}{\mathrm{d} t^2},\frac{\mathrm{d} x}{\mathrm{d} t},x\right)
</math>
 
For example, certain simple electronic circuits may be designed which are described by a jerk equation. These are known as ''jerk circuits''.
 
One of the most interesting properties of jerk systems is the possibility of [[chaos theory|chaotic behavior]]. In fact, certain well-known chaotic systems, such as the [[Lorenz attractor]] and the [[Rössler map]], are conventionally described as a system of three first-order differential equations, but which may be combined into a single (although rather complicated) jerk equation.
 
An example of a jerk equation is:
:<math>
\frac{\mathrm{d}^3 x}{\mathrm{d} t^3}+A\frac{\mathrm{d}^2 x}{\mathrm{d} t^2}+\frac{\mathrm{d} x}{\mathrm{d} t}-|x|+1=0.
</math>
 
Where ''A'' is an adjustable parameter. This equation has a chaotic solution for A=3/5 and can be implemented with the following jerk circuit:
 
[[Image:JerkCircuit01.png|frameless|upright=1.4|center]]
 
In the above circuit, all resistors are of equal value, except <math>R_A=R/A=5R/3</math>, and all capacitors are of equal size. The dominant frequency will be <math>1/2\pi R C</math>. The output of [[operational amplifier|op amp]] 0 will correspond to the x variable, the output of 1 will correspond to the first derivative of x and the output of 2 will correspond to the second derivative.
 
==Non-calculus explanation==
{{unreferenced section|date=July 2013}}
Jerk can be difficult to conceptualize when it is defined in terms of calculus.  When a [[force]] (push or pull) is applied to an object, that object starts to move.  As long as the force is applied, the object will continue to speed up.  When described in these terms, we are oversimplifying slightly.  We think along the lines that there is no force on the object, then suddenly there is a force on the object.  We do not think about how long it takes to apply the force. 
 
However, in truth, the application of force does not instantly happen.  A change always happens over time.  Jerk is the change in acceleration over time.  Typically, the time of contact where a force is applied is a split second. 
 
If you push on a wall, it takes a fraction of a second before you apply the full push.  Your fingertips will [[wikt:squoosh|squoosh]] slightly as you begin to push.  How long the squooshing takes determines the jerk.  If you push on a wall very slowly, you can actually feel your push increasing.  In such a case, the jerk is very low, because the change in force is happening over a relatively long time of several seconds.   Jerk happens when a force is applied and removed.  But the whole time a force is acting consistently on an object, there is no jerk.  (This is because the acceleration is constant when there is a constant force.)
 
How quickly the force starts its push or pull determines the yank and subsequently the jerk.  In most applications, it is not important how quickly the force is applied, and thus we typically think of forces being applied instantaneously.  A familiar example of jerk is the rate of application of brakes in an automobile.
 
[[Image:Jerk Diagram.png|frameless|upright=1.4|center]]
 
An experienced driver gradually applies the brakes, causing a slowly increasing deceleration (small jerk). An inexperienced driver, or a driver responding to an emergency, applies the brakes suddenly, causing a rapid increase in deceleration (large jerk). The sensation of jerk is noticeable, causing the passenger’s head to jerk forward.
 
=== Equations  ===
 
* <math>Y = \frac{\Delta F}{\Delta t}</math> (yank: force per unit time)
 
* <math>j = \frac{\Delta a}{\Delta t}</math>  (jerk: acceleration per unit time)
 
* <math>j = \frac{y}{m}</math>, following from [[Newton's second law]] divided by <math>\Delta t</math> and the above two relations: <math>\frac{\Delta F}{\Delta t} = m \frac{\Delta a}{\Delta t} \implies y = m j</math>
 
* <math>j = \frac{\Delta F}{m \Delta t}</math>
 
The higher the force or acceleration, the higher the jerk.  The shorter the time of change in acceleration, such as a rollercoaster 'whipping' around a corner, the higher the jerk.
For uniform jerk, the following equation can be applied:
 
* <math>a = a. + jt </math>
* <math>v = u + a.t + \frac{1}{2}jt^2 </math>
* <math>s = ut + \frac{1}{2}a.t^2 + \frac{1}{6}jt^3 </math>
 
where
a : final acceleration
a. : initial acceleration
j : jerk (change in acceleration)
v : final velocity
u : initial velocity
s : distance/displacement
t : time taken
 
==See also== 
* [[Abraham–Lorentz force]], a force in electrodynamics whose magnitude is proportional to jerk  
* [[Shock (mechanics)]]
* [[Wheeler-Feynman absorber theory]]
 
==Notes==
{{Reflist}}
 
==References==
*{{cite book | author = Sprott JC | title = Chaos and Time-Series Analysis | publisher = Oxford University Press | year = 2003 | isbn = 0-19-850839-5 |ref=CITEREFSprott2003 }}
*{{cite journal |title=Some simple chaotic jerk functions |url=http://sprott.physics.wisc.edu/pubs/paper229.pdf |format=PDF |accessdate=2009-09-28 |doi=10.1119/1.18585 |journal=Am J Phys |volume=65 |issue=6 |pages=537–43 |year=1997 |author=Sprott JC |bibcode = 1997AmJPh..65..537S }}
*{{cite journal |title=Making the Cam |url=http://www.profblairandassociates.com/pdfs/Camshaft%20RET%20010.pdf |format=PDF |accessdate=2009-09-29 |journal=Race Engine Technology  |issue=010 |year=2005 |author=Blair G }}
 
==External links==
*[http://math.ucr.edu/home/baez/physics/General/jerk.html What is the term used for the third derivative of position?], description of jerk in the [http://math.ucr.edu/home/baez/physics/index.html Usenet Physics FAQ].
*[http://www.pmdcorp.com/news/articles/html/Mathematics_of_Motion_Control_Profiles.cfm Mathematics of Motion Control Profiles]
 
{{Kinematics}}
 
{{DEFAULTSORT:Jerk (Physics)}}
[[Category:Classical mechanics]]
[[Category:Physical quantities]]
[[Category:Acceleration]]
[[Category:Time]]

Latest revision as of 22:26, 6 January 2015

Singer and actress Jennifer Lopez is to open a chain of 15 mobile phone stores in the US targeted at Latinos.

The Jenny From The Block performer is majority owner of Viva Movil as well as its "chief creative officer" and marketing face of the brand.
dre beats nz The company promises a "culturally relevant" experience with bilingual staff, the company said.
Lopez - also known as J-Lo - is the latest in a growing line of celebrities getting involved in technology retail.

Performers such as Will.i.am from the Black Eyed Peas have shown keen involvement - taking on roles as "creative figureheads" in companies looking to expand their target market.
More recently, singer Alicia Keys has been the public face of Blackberry, an image that slipped slightly when she was seen to tweet not from the firm's new smartphone, but from an iPhone instead. She blamed the tweet on "hackers".

Most notably, Beats By Dre headphones - endorsed and part-designed by rapper Dr Dre - have been a runaway success, bringing in revenues into the hundreds of millions.
'Growing demographic' Jennifer Lopez's plans do not as yet involve designing technology, but rather a retail experience tailored towards the Latin American community.
"Latinos need a place to go and they need to be catered to because it is such a growing, growing demographic and market and people want to capture that, and they deserve to be catered to," she said in an interview.

The store will be an authorised reseller of products available on the Verizon network, which includes devices such as a the iPhone and Samsung Galaxy.
The Associated Press has noted that previous attempts at marketing directly to Latinos have centred around low-cost, contract-free offerings - not high-end phones on monthly plans.
The news agency added that some previous attempts to market directly to Latin Americans have proved unsuccessful. Movida Communications, a firm offering Spanish-language mobile services that launched in 2007, closed after less than dre beats nz a year in operation.

The first Viva Movil store will open in New York on 15 June, with others in Miami and Los Angeles to follow.