Friday, May 15, 2009
By: Andrean Rule Bomediano
Welcome to our Applied History of Psychology Wikibook. This project was the efforts of a graduate course in History and Systems in Psychology, HDP 3204 intersession class 2007 at the Ontario Institute for Studies in Education of the University of Toronto (OISE/UT). This book represents a history of psychology--not the only one and certainly not a complete one, but definitely an interesting one and one that represents the varied interests of the students in this particular class. We hope you enjoy it and find it useful.
The initial structure of this book emerged out of our individual interests, prior knowledges, and research contributions to this course. We first briefly acknolwedge early thinkers that influenced the development of the discipline of psychology (Part I). Then, we address the history of various area of inquiries that are highly relevant to our work. These broad areas include developmental theories (Part II), the field of intelligence and assessment (Part III), as well as the various approaches to understanding and treating psychological difficulties (IV). Finally, we also created a special topic section to provide space for particular topics that can "stand on their own." (Part V).
We welcome your comments, additions, and contributions. We invite you to consult our Introduction for more information.
Welcome to our Applied History of Psychology Wikibook. This project was the efforts of a graduate course in History and Systems in Psychology, HDP 3204 intersession class 2007 at the Ontario Institute for Studies in Education of the University of Toronto (OISE/UT). This book represents a history of psychology--not the only one and certainly not a complete one, but definitely an interesting one and one that represents the varied interests of the students in this particular class. We hope you enjoy it and find it useful.
The initial structure of this book emerged out of our individual interests, prior knowledges, and research contributions to this course. We first briefly acknolwedge early thinkers that influenced the development of the discipline of psychology (Part I). Then, we address the history of various area of inquiries that are highly relevant to our work. These broad areas include developmental theories (Part II), the field of intelligence and assessment (Part III), as well as the various approaches to understanding and treating psychological difficulties (IV). Finally, we also created a special topic section to provide space for particular topics that can "stand on their own." (Part V).
We welcome your comments, additions, and contributions. We invite you to consult our Introduction for more information.
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Physics with Calculus/Mechanics/Scalar and Vector Quantities
From Wikibooks, the open-content textbooks collection
< Physics with Calculus
There are no reviewed revisions of this page, so it may not have been checked for quality.
Jump to: navigation, search
By: Andrean Rule Bomediano
Contents [hide]
1 Introduction
2 Scalar Quantities
3 Vector Quantities
4 Unit Vectors
5 Vector Components
6 Vector Algebra
6.1 Negation
6.2 Scalar Multiplication
6.3 Addition
6.4 Dot Product
6.5 Cross Product
6.6 Useful Properties of Dot Product and Cross Product
[edit] Introduction
The study of physics is intimately tied in with the study of mathematics. Sometimes, the direction of a number or quantity is as important as the number itself. Mathematicians in the 19th century developed a convenient way of describing and interacting with quantities with and without direction by dividing them into two types: scalar quantities and vector quantities. Scalar quantities have a magnitude but no direction. Vector quantities have both a magnitude and a direction. For instance, one might describe a plane as flying at 400 miles per hour. However, simply knowing the speed of the airplane is not nearly as useful as knowing the speed and direction of the airplane, so a more accurate description may be a plane flying at 400 miles per hour southeast.cfvvvvv
[edit] Scalar Quantities
Scalar quantities are numbers that have a magnitude but no direction. Scalars are represented by a single letter, such as a. Some examples of scalar quantities are numbers without units (such as three), mass (five kilograms), and temperature (twenty-two degrees Celsius).
[edit] Vector Quantities
Vectors are a geometric way of representing quantities that have direction as well as magnitude. An example of a vector is force. If we are to fully describe a force on an object we need to specify not only how much force is applied, but also in which direction. Another example of a vector quantity is velocity -- an object that is traveling at ten meters per second to the east has a different velocity than an object that is traveling ten meters per second to the west. This vector is a special case, however,sometimes people are interested in only the magnitude of the velocity of an object. This quantity, a scalar, is called speed which has magnitude but no given direction.
When vectors are written, they are represented by a single letter in bold type or with an arrow above the letter, such as or . Some examples of vectors are displacement (e.g. 120 cm at 30°) and velocity (e.g. 12 meters per second north). The only basic SI unit that is a vector is the meter. All others are scalars. Derived quantities can be vector or scalar, but every vector quantity must involve meters in its definition and unit.
[edit] Unit Vectors
An illustration of common choice of unit vectors in a Cartesian coordinate systemStrictly speaking, vectors exist separately from any coordinate systems. As vectors are geometric objects, we do not need to define a coordinate system in order to talk about vectors—or even to perform most operations on vectors. For example, consider the triple of numbers: number of apples, number of bananas, and number of carrots you have. Say that you calculate the triple in one coordinate system and get (1,2,3). If you rotate your coordinate system, and recalculate, you will have (1,2,3) again. Thus, the triple does not have the most important property of a vector -- that is transform like the coordinate system.
Nevertheless, it is often convenient to introduce a coordinate system. In three dimensions, for many problems the rectangular, or Cartesian coordinate system (after French mathematician René Descartes) turns out to be convenient, and this coordinate system can be defined in terms of unit vectors.
A unit vector is a vector pointing in a given direction with a magnitude of one. Essentially, it merely indicates direction. In a Cartesian system the three unit vectors are called i, j, and k (or, in handwriting, with a little "hat" on top, as , , and ). Colloquially, you might refer to the directions of the unit vectors as "east", "north", and "up". One could just have easily chosen i as up, j as east, and k as north. In choosing i, j, and k, once i and j are chosen, k must point to a particular direction, so that a common convention called "right-hand rule" holds. Mathematically, this can be compactly expressed as,
,
but we will expand more on this as we describe "cross products" later on.
Unit vectors are generally chosen to be orthogonal. That is, each unit vector is perpendicular to each of the others. While unit vectors do not need to be orthogonal, working with a coordinate system defined by orthogonal unit vectors will be convenient in most cases. There are two other major coordinate systems used in physics—cylindrical coordinates and spherical coordinates. These will be introduced at a later time as necessary.
[edit] Vector Components
Every vector may be expressed as the sum of its n unit vectors.
The quantities ax, ay, and az are called the vector components of vector A. Sometimes they are represented simply as an ordered triple (e.g. (ax,ay,az)) especially when the choice and ordering of three unit vectors are not ambiguous.
[edit] Vector Algebra
[edit] Negation
Illustration of vector negation and scalar multiplication
Considering a vector represented graphically by an arrow, the negative of a vector would be represented by a vector of the same length but opposite direction.
[edit] Scalar Multiplication
Note that vector negation is merely multiplication by a scalar, where that scalar is -1. A scaled vector represented graphically would point in the same direction as the original vector but have its magnitude scaled by a factor of k.
[edit] Addition
Illustration of head-to-tail addition
Two vectors can be added graphically by placing the tail of the second vector (here, B) coincidental with the tip of the first vector (A). The resultant vector A + B is the vector drawn from the tail of A to the tip of B.
Any number of vectors can be added in this fashion. Vector addition is commutative:
and associative:
[edit] Dot Product
When we multiply two vectors, we can either apply a multiplication rule that produces a scalar as the end result, or one that produces a vector as the end result. The first one that produces a scalar is called dot product. In mathematical texts, this is often called inner product, and some older texts will refer to this as scalar product (not to be confused with scalar multiplication); they are all the same. Dot product has all the usual properties of products, such as associativity, commutativity, and the distributive property. Geometrically, dot product is defined as:
,
where θ is the angle between and . Note that since cos(0) = 1, if is parallel to , then . On the other hand, since if is perpendicular to , then . Using this as the guiding rule, we find below relationship:
.
Using this, we can define dot product in terms of component vectors as follows:
.
You are encouraged to expand out the multiplication explicitly, using the distributive property and find which terms cancel to zero and which products become 1.
[edit] Cross Product
The second multiplication rule for product of two vectors yields yet another vector. This multiplication rule is a very special one—in fact, it is a special property of 3-dimensional space that we can define a vector multiplication is this way and still obtain a vector. This rule will not work when limited to 2-D, and in any dimensions greater than 3, an extension of this rule will not result in another vector (cf. dot product can be naturally extended or limited to any dimensions to produce a scalar). This multiplication is called cross product, and in other texts, you may find terms outer product and vector product. The product can be defined with the two rules, first specifying the product vector's direction, and the second specifying its magnitude:
is perpendicular to and (that is, perpendicular to the plane defined by these two vectors). This leaves two possible directions along the line perpendicular to the plane. One of the two directions is called by a "right-hand rule": Hold out index finger, middle finger, and the thumb so that they are all perpendicular to each other. Let the index finger point towards direction of , and the middle finger towards . Then the thumb points towards the direction of . The ordering is important here (note exchanging A and B makes the thumb point in the opposite direction).
, where θ is again the angle between and .
Applying this definition to unit vectors again, we find following relationships:
.
And in terms of components, we have (after a tedious algebra):
.
It turns out we can write this complicated relationship as a determinant of a 3 x 3 matrix:
.
Some properties of cross product, such as and can be derived as a property of the determinant of the matrix.
[edit] Useful Properties of Dot Product and Cross Product
From Wikibooks, the open-content textbooks collection
< Physics with Calculus
There are no reviewed revisions of this page, so it may not have been checked for quality.
Jump to: navigation, search
By: Andrean Rule Bomediano
Contents [hide]
1 Introduction
2 Scalar Quantities
3 Vector Quantities
4 Unit Vectors
5 Vector Components
6 Vector Algebra
6.1 Negation
6.2 Scalar Multiplication
6.3 Addition
6.4 Dot Product
6.5 Cross Product
6.6 Useful Properties of Dot Product and Cross Product
[edit] Introduction
The study of physics is intimately tied in with the study of mathematics. Sometimes, the direction of a number or quantity is as important as the number itself. Mathematicians in the 19th century developed a convenient way of describing and interacting with quantities with and without direction by dividing them into two types: scalar quantities and vector quantities. Scalar quantities have a magnitude but no direction. Vector quantities have both a magnitude and a direction. For instance, one might describe a plane as flying at 400 miles per hour. However, simply knowing the speed of the airplane is not nearly as useful as knowing the speed and direction of the airplane, so a more accurate description may be a plane flying at 400 miles per hour southeast.cfvvvvv
[edit] Scalar Quantities
Scalar quantities are numbers that have a magnitude but no direction. Scalars are represented by a single letter, such as a. Some examples of scalar quantities are numbers without units (such as three), mass (five kilograms), and temperature (twenty-two degrees Celsius).
[edit] Vector Quantities
Vectors are a geometric way of representing quantities that have direction as well as magnitude. An example of a vector is force. If we are to fully describe a force on an object we need to specify not only how much force is applied, but also in which direction. Another example of a vector quantity is velocity -- an object that is traveling at ten meters per second to the east has a different velocity than an object that is traveling ten meters per second to the west. This vector is a special case, however,sometimes people are interested in only the magnitude of the velocity of an object. This quantity, a scalar, is called speed which has magnitude but no given direction.
When vectors are written, they are represented by a single letter in bold type or with an arrow above the letter, such as or . Some examples of vectors are displacement (e.g. 120 cm at 30°) and velocity (e.g. 12 meters per second north). The only basic SI unit that is a vector is the meter. All others are scalars. Derived quantities can be vector or scalar, but every vector quantity must involve meters in its definition and unit.
[edit] Unit Vectors
An illustration of common choice of unit vectors in a Cartesian coordinate systemStrictly speaking, vectors exist separately from any coordinate systems. As vectors are geometric objects, we do not need to define a coordinate system in order to talk about vectors—or even to perform most operations on vectors. For example, consider the triple of numbers: number of apples, number of bananas, and number of carrots you have. Say that you calculate the triple in one coordinate system and get (1,2,3). If you rotate your coordinate system, and recalculate, you will have (1,2,3) again. Thus, the triple does not have the most important property of a vector -- that is transform like the coordinate system.
Nevertheless, it is often convenient to introduce a coordinate system. In three dimensions, for many problems the rectangular, or Cartesian coordinate system (after French mathematician René Descartes) turns out to be convenient, and this coordinate system can be defined in terms of unit vectors.
A unit vector is a vector pointing in a given direction with a magnitude of one. Essentially, it merely indicates direction. In a Cartesian system the three unit vectors are called i, j, and k (or, in handwriting, with a little "hat" on top, as , , and ). Colloquially, you might refer to the directions of the unit vectors as "east", "north", and "up". One could just have easily chosen i as up, j as east, and k as north. In choosing i, j, and k, once i and j are chosen, k must point to a particular direction, so that a common convention called "right-hand rule" holds. Mathematically, this can be compactly expressed as,
,
but we will expand more on this as we describe "cross products" later on.
Unit vectors are generally chosen to be orthogonal. That is, each unit vector is perpendicular to each of the others. While unit vectors do not need to be orthogonal, working with a coordinate system defined by orthogonal unit vectors will be convenient in most cases. There are two other major coordinate systems used in physics—cylindrical coordinates and spherical coordinates. These will be introduced at a later time as necessary.
[edit] Vector Components
Every vector may be expressed as the sum of its n unit vectors.
The quantities ax, ay, and az are called the vector components of vector A. Sometimes they are represented simply as an ordered triple (e.g. (ax,ay,az)) especially when the choice and ordering of three unit vectors are not ambiguous.
[edit] Vector Algebra
[edit] Negation
Illustration of vector negation and scalar multiplication
Considering a vector represented graphically by an arrow, the negative of a vector would be represented by a vector of the same length but opposite direction.
[edit] Scalar Multiplication
Note that vector negation is merely multiplication by a scalar, where that scalar is -1. A scaled vector represented graphically would point in the same direction as the original vector but have its magnitude scaled by a factor of k.
[edit] Addition
Illustration of head-to-tail addition
Two vectors can be added graphically by placing the tail of the second vector (here, B) coincidental with the tip of the first vector (A). The resultant vector A + B is the vector drawn from the tail of A to the tip of B.
Any number of vectors can be added in this fashion. Vector addition is commutative:
and associative:
[edit] Dot Product
When we multiply two vectors, we can either apply a multiplication rule that produces a scalar as the end result, or one that produces a vector as the end result. The first one that produces a scalar is called dot product. In mathematical texts, this is often called inner product, and some older texts will refer to this as scalar product (not to be confused with scalar multiplication); they are all the same. Dot product has all the usual properties of products, such as associativity, commutativity, and the distributive property. Geometrically, dot product is defined as:
,
where θ is the angle between and . Note that since cos(0) = 1, if is parallel to , then . On the other hand, since if is perpendicular to , then . Using this as the guiding rule, we find below relationship:
.
Using this, we can define dot product in terms of component vectors as follows:
.
You are encouraged to expand out the multiplication explicitly, using the distributive property and find which terms cancel to zero and which products become 1.
[edit] Cross Product
The second multiplication rule for product of two vectors yields yet another vector. This multiplication rule is a very special one—in fact, it is a special property of 3-dimensional space that we can define a vector multiplication is this way and still obtain a vector. This rule will not work when limited to 2-D, and in any dimensions greater than 3, an extension of this rule will not result in another vector (cf. dot product can be naturally extended or limited to any dimensions to produce a scalar). This multiplication is called cross product, and in other texts, you may find terms outer product and vector product. The product can be defined with the two rules, first specifying the product vector's direction, and the second specifying its magnitude:
is perpendicular to and (that is, perpendicular to the plane defined by these two vectors). This leaves two possible directions along the line perpendicular to the plane. One of the two directions is called by a "right-hand rule": Hold out index finger, middle finger, and the thumb so that they are all perpendicular to each other. Let the index finger point towards direction of , and the middle finger towards . Then the thumb points towards the direction of . The ordering is important here (note exchanging A and B makes the thumb point in the opposite direction).
, where θ is again the angle between and .
Applying this definition to unit vectors again, we find following relationships:
.
And in terms of components, we have (after a tedious algebra):
.
It turns out we can write this complicated relationship as a determinant of a 3 x 3 matrix:
.
Some properties of cross product, such as and can be derived as a property of the determinant of the matrix.
[edit] Useful Properties of Dot Product and Cross Product
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By Andrean Rule Bomediano, 4 months ago
Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano View Slideshow
Popular man official or fan...
Created 4 months ago by Andrean Rule Bomediano 3 posts 1 recipient
Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
View Slideshow
Winner
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Created 4 months ago by Andrean Rule Bomediano
5 posts 1 recipient
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Andrean Rule Bomediano & Je...
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano is ...
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
View Slideshow
Winner
Best Ensemble Produ...
Created 4 months ago by Andrean Rule Bomediano
5 posts 1 recipient
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Andrean Rule Bomediano & Je...
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano is ...
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
By Andrean Rule Bomediano, 4 months ago
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Andrean Rule Bomediano
Andrean Rule Bomediano — Cebu City
Location: Cebu City, Cebu, Philippines
Date Posted: Mar 11
tall, dark, & handsome
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aB20_dear
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//');
//]]>
For serious relationship sulat
Related Searches: Lalaking naghahanap ng girlfriend sa Cebu Lalaking naghahanap ng girlfriend sa Davao magandang babae sa Caloocan mga babae sa Rizal
Philippines > Cebu > Cebu City
Free classifieds in Philippines > Personals in Philippines > Personals in Cebu > Personals in Cebu City
Location: Cebu City, Cebu, Philippines
Date Posted: Mar 11
tall, dark, & handsome
Personal Information
aB20_dear
Listing Options
Contact Me!
Add to favorites
Add a comment
Save to phone
Flag as Scam
Comments
Be the first to comment on this listing!
//');
//]]>
For serious relationship sulat
Related Searches: Lalaking naghahanap ng girlfriend sa Cebu Lalaking naghahanap ng girlfriend sa Davao magandang babae sa Caloocan mga babae sa Rizal
Philippines > Cebu > Cebu City
Free classifieds in Philippines > Personals in Philippines > Personals in Cebu > Personals in Cebu City
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