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In [[physics]], a center of gravity of a material body is a point that may be used for a summary description of gravitational interactions. In a uniform gravitational field, the [[center of mass]] serves as the center of gravity. This is a very good approximation for smaller bodies near the surface of Earth, so there is no practical need to distinguish "center of gravity" from "center of mass" in most applications, such as engineering and medicine.
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In a non-uniform field, gravitational effects such as [[potential energy]], [[force]], and [[torque]] can no longer be calculated using the center of mass alone. In particular, a non-uniform gravitational field can produce a torque on an object, even about an axis through the center of mass. The center of gravity seeks to explain this effect. Formally, a center of gravity is an application point of the [[resultant force|resultant]] gravitational force on the body. Such a point may not exist, and if it exists, it is not unique. One can further define a unique center of gravity by approximating the field as either parallel or spherically symmetric.
 
The concept of a center of gravity as distinct from the center of mass is rarely used in applications, even in [[celestial mechanics]], where non-uniform fields are important. Since the center of gravity depends on the external field, its motion is harder to determine than the motion of the center of mass. The common method to deal with gravitational torques is a field theory.
 
==Center of mass==
{{main|Center of mass}}
One way to define the center of gravity of a body is as the unique point in the body, if it exists, that satisfies the following requirement: There is no torque about the point for any positioning of the body in the field of force in which it is placed. This center of gravity exists only when the force is uniform, in which case it coincides with the center of mass.{{sfn|Millikan|1902|pp=34–35}} This approach dates back to [[Archimedes]].{{sfn|Shirley|Fairbridge|1997|p=92}}
 
==Centers of gravity in a field==
When a body is affected by a non-uniform external gravitational field, one can sometimes define a ''center of gravity'' relative to that field that will act as a point where the gravitational force is applied. Textbooks such as the ''[[The Feynman Lectures on Physics]]'' characterize the center of gravity as a point about which there is no torque. In other words, the center of gravity is a point of application for the resultant force.<ref>{{Harvnb|Feynman|Leighton|Sands|1963|p=19-3}}; {{Harvnb|Tipler|Mosca|2004|pp=371–372}}; {{Harvnb|Pollard|Fletcher|2005}}; {{Harvnb|Rosen|Gothard|2009|pp=75–76}}; {{Harvnb|Pytel|Kiusalaas|2010|pp=442–443}}.</ref> Under this formulation, the center of gravity {{math|'''r'''<sub>cg</sub>}} is defined as a point that satisfies the equation
 
:<math>\mathbf{r}_\mathrm{cg} \times \mathbf{F} = \boldsymbol{\tau},</math>
 
where {{math|'''F'''}} and {{math|'''&tau;'''}} are the total force and torque on the body due to gravity.{{sfn|Tipler|Mosca|2004|p=371}}
 
One complication concerning {{math|'''r'''<sub>cg</sub>}} is that its defining equation is not generally solvable. If {{math|'''F'''}} and {{math|'''&tau;'''}} are not [[orthogonal vector|orthogonal]], then there is no solution; the force of gravity does not have a resultant and cannot be replaced by a single force at any point.{{sfn|Symon|1964|pp=233, 260}} There are some important special cases where {{math|'''F'''}} and {{math|'''&tau;'''}} are guaranteed to be orthogonal, such as if all forces lie in a single plane or are aligned with a single point.{{sfn|Symon|1964|p=233}}
 
If the equation is solvable, there is another complication: its solutions are not unique. Instead, there are infinitely many solutions; the set of all solutions is known as the [[line of action]] of the force. This line is parallel to the weight {{math|'''F'''}}. In general, there is no way to choose a particular point as the unique center of gravity.{{sfn|Symon|1964|pp=260}} A single point may still be chosen in some special cases, such as if the gravitational field is parallel or spherically symmetric. These cases are considered below.
 
===Parallel fields===
Some of the inhomogeneity in a gravitational field may be modeled by a variable but parallel field: {{math|1='''g'''('''r''') = ''g''('''r''')'''n'''}}, where {{math|'''n'''}} is some constant unit vector. Although a non-uniform gravitational field cannot be exactly parallel, this approximation can be valid if the body is sufficiently small.{{sfn|Beatty|2006|pp=45}} The center of gravity may then be defined as a certain weighted average of the locations of the particles composing the body. Whereas the center of mass averages over the mass of each particle, the center of gravity averages over the weight of each particle:
 
:<math>\mathbf{r}_\mathrm{cg} = \frac{1}{W} \sum_i w_i \mathbf{r}_i,</math>
 
where {{mvar|w<sub>i</sub>}} is the (scalar) weight of the {{mvar|i}}th particle and {{mvar|W}} is the (scalar) total weight of all the particles.<ref>{{Harvnb|Beatty|2006|p=48}}; {{Harvnb|Jong|Rogers|1995|pp=213}}.</ref> This equation always has a unique solution, and in the parallel-field approximation, it is compatible with the torque requirement.{{sfn|Beatty|2006|pp=47–48}}
 
A common illustration concerns the [[Moon]] in the field of the [[Earth]]. Using the weighted-average definition, the Moon has a center of gravity that is lower (closer to the Earth) than its center of mass, because its lower portion is more strongly influenced by the Earth's gravity.<ref>{{Harvnb|Asimov|1988|p=77}}; {{Harvnb|Frautschi|Olenick|Apostol|Goodstein|1986|p=269}}.</ref>
 
===Spherically symmetric fields===
If the external gravitational field is spherically symmetric, then it is equivalent to the field of a point mass {{mvar|M}} at the center of symmetry {{math|'''r'''}}. In this case, the center of gravity can be defined as the point at which the total force on the body is given by [[Newton's law of universal gravitation|Newton's Law]]:
 
:<math>\frac {GmM (\mathbf{r}_\mathrm{cg} - \mathbf{r})} {|\mathbf{r}_\mathrm{cg} - \mathbf{r}|^3} = \mathbf{F},</math>
 
where {{mvar|G}} is the [[gravitational constant]] and {{mvar|m}} is the mass of the body. As long as the total force is nonzero, this equation has a unique solution, and it satisfies the torque requirement.<ref>{{Harvnb|Symon|1964|pp=259–260}}; {{Harvnb|Goodman|Warner|2001|p=117}}; {{Harvnb|Hamill|2009|pp=494–496}}.</ref> A convenient feature of this definition is that if the body is itself spherically symmetric, then {{math|'''r'''<sub>cg</sub>}} lies at its center of mass. In general, as the distance between {{math|'''r'''}} and the body increases, the center of gravity approaches the center of mass.{{sfn|Symon|1964|pp=260, 263–264}}
 
Another way to view this definition is to consider the gravitational field of the body; then {{math|'''r'''<sub>cg</sub>}} is the apparent source of gravitational attraction for an observer located at {{math|'''r'''}}. For this reason, {{math|'''r'''<sub>cg</sub>}} is sometimes referred to as the center of gravity of {{mvar|M}} ''relative to the point'' {{math|'''r'''}}.{{sfn|Symon|1964|p=260}}
 
===Usage===
The centers of gravity defined above are not fixed points on the body; rather, they change as the position and orientation of the body changes. This characteristic makes the center of gravity difficult to work with, so the concept has little practical use.<ref>{{Harvnb|Symon|1964|p=260}}; {{Harvnb|Goodman|Warner|2001|p=118}}.</ref>
 
When it is necessary to consider a gravitational torque, it is easier to represent gravity as a force acting at the center of mass, plus an orientation-dependent [[couple (mechanics)|couple]].{{sfn|Goodman|Warner|2001|p=118}} The latter is best approached by treating the [[gravitational potential]] as a [[field (physics)|field]].{{sfn|Symon|1964|p=260}}
 
==Notes==
{{Reflist|30em}}
 
==References==
*{{Citation |last=Asimov |first=Isaac |authorlink=Isaac Asimov |year=1988 |origyear=1966 |title=[[Understanding Physics]] |publisher=Barnes & Noble Books |isbn=0-88029-251-2}}
*{{Citation |last=Beatty |first=Millard F. |year=2006 |title=Principles of Engineering Mechanics, Volume 2: Dynamics—The Analysis of Motion |publisher=Springer |series=Mathematical Concepts and Methods in Science and Engineering |volume=33 |isbn=0-387-23704-6}}
*{{Citation |last=Feynman |first=Richard |authorlink=Richard Feynman |last2=Leighton |first2=Robert B. |author2-link=Robert B. Leighton |last3=Sands |first3=Matthew |author3-link=Matthew Sands |year=1963 |title=[[The Feynman Lectures on Physics]] |volume=1 |edition=Sixth printing, February 1977 |publisher=Addison-Wesley |isbn=0-201-02010-6-H}}
*{{Citation |last=Frautschi |first=Steven C. |authorlink=Steven Frautschi |last2=Olenick |first2=Richard P. |last3=Apostol |first3=Tom M. |author3-link=Tom M. Apostol |last4=Goodstein |first4=David L. |author4-link=David Goodstein |year=1986 |title=The Mechanical Universe: Mechanics and heat, advanced edition |publisher=Cambridge University Press |isbn=0-521-30432-6}}
*{{Citation |last=Goldstein |first=Herbert |authorlink=Herbert Goldstein |last2=Poole |first2=Charles |last3=Safko |first3=John |year=2002 |title=[[Classical Mechanics (book)|Classical Mechanics]] |edition=3rd |publisher=Addison-Wesley |isbn=0-201-65702-3}}
*{{Citation |last=Goodman |first=Lawrence E. |last2=Warner |first2=William H. |year=2001 |origyear=1964 |title=Statics |publisher=Dover |isbn=0-486-42005-1}}
*{{Citation |last=Hamill |first=Patrick |year=2009 |title=Intermediate Dynamics |publisher=Jones & Bartlett Learning |isbn=978-0-7637-5728-1}}
*{{Citation |last=Jong |first=I. G. |last2=Rogers |first2=B. G. |year=1995 |title=Engineering Mechanics: Statics |publisher=Saunders College Publishing |isbn=0-03-026309-3}}
*{{Citation |last=Millikan |first=Robert Andrews |authorlink=Robert Andrews Millikan |year=1902 |title=Mechanics, molecular physics and heat: a twelve weeks' college course |publisher=Scott, Foresman and Company |location=Chicago |url=http://books.google.com/books?id=X0tBAAAAYAAJ |accessdate=25 May 2011}}
*{{Citation |last=Pollard |first=David D. |last2=Fletcher |first2=Raymond C. |year=2005 |title=Fundamentals of structural geology |publisher=Cambridge University Press |isbn=978-0-521-83927-3}}
*{{Citation |last=Pytel |first=Andrew |last2=Kiusalaas |first2=Jaan |year=2010 |title=Engineering Mechanics: Statics |volume=1 |edition=3rd |publisher=Cengage Learning |isbn=978-0-495-29559-4}}
*{{Citation |last=Rosen |first=Joe |last2=Gothard |first2=Lisa Quinn |year=2009 |title=Encyclopedia of Physical Science |publisher=Infobase Publishing |isbn=978-0-8160-7011-4}}
*{{Citation |last=Serway |first=Raymond A. |last2=Jewett |first2=John W. |year=2006 |title=Principles of physics: a calculus-based text |volume=1 |edition=4th |publisher=Thomson Learning |isbn=0-534-49143-X}}
*{{Citation |last=Shirley |first=James H. |last2=Fairbridge |first2=Rhodes Whitmore |year=1997 |title=Encyclopedia of planetary sciences |publisher=Springer |isbn=0-412-06951-2}}
*{{Citation |last=De Silva |first=Clarence W. |year=2002 |title=Vibration and shock handbook |publisher=CRC Press |isbn=978-0-8493-1580-0}}
*{{Citation |last=Symon |first=Keith R. |year=1971 |title=Mechanics |publisher=Addison-Wesley |isbn=978-0-201-07392-8}}
*{{Citation |last=Tipler |first=Paul A. |last2=Mosca |first2=Gene |year=2004 |title=Physics for Scientists and Engineers |volume=1A |edition=5th |publisher=W. H. Freeman and Company |isbn=0-7167-0900-7}}
 
[[Category:Classical mechanics]]
[[Category:Geometric centers|Gravity]]

Latest revision as of 22:56, 17 November 2014

The ac1st16.dll error is annoying and truly normal with all sorts of Windows computers. Not only does it make your computer run slower, however it can equally avoid you from using a range of programs, including AutoCAD. To fix this issue, you need to employ a simple system to remedy all potential difficulties which cause it. Here's what we have to do...

Most of the reliable businesses can provide a full income back guarantee. This means that we have the chance to get the funds back if you find the registry cleaning has not delivered what you expected.

The error is basically a outcome of problem with Windows Installer package. The Windows Installer is a tool utilized to install, uninstall and repair the most programs on the computer. Let us discuss a limited points which helped a great deal of individuals who facing the similar problem.

Always see with it that you have installed antivirus, anti-spyware and anti-adware programs and have them up-to-date on a regular basis. This can help stop windows XP running slow.

There are many tuneup utilities 2014 s available now. How do you learn which you to choose? Well, when you bought your automobile we did several analysis on it, didn't we? You didn't merely go out and buy the initially red convertible you saw. The same thing works with registry products. On any look engine, kind inside "registry cleaner reviews" plus they can receive posted for you to read about.

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