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{{06-240/Navigation}} |
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A force has a direction & a magnitude. |
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==Scan of Lecture Notes== |
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==<center><u>'''Force Vectors'''</u></center>== |
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# <math>\mbox{There is a special force vector called 0. }</math> |
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* PDF file by [[User:Alla]]: [[Media:MAT_Lect004.pdf|Week 2 Lecture 2 notes]] |
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# <math>\mbox{They can be added. }</math> |
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* PDF file by [[User:Gokmen]]: [[Media:06-240-Lecture-21-september.pdf|Week 2 Lecture 2 notes]] |
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# <math>\mbox{They can be multiplied by any scalar. }</math> |
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==Scan of Tutorial notes== |
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* PDF file by [[User:Alla]]: [[Media:MAT_Tut002.pdf|Week 2 Tutorial notes]] |
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* PDF file by [[User:Gokmen]]: [[Media:06-240-tutorial-21-september.pdf|Week 2 Tutorial notes]] |
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==Force Vectors== |
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⚫ |
A force has a direction and a magnitude. |
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# There is a special force vector called 0. |
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# They can be multiplied by any scalar. |
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====''Properties''==== |
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====''Properties''==== |
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<math>\mbox{(convention: }x,y,z \mbox{ are vectors; }a,b,c \mbox{ are scalars)}</math>
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(convention: <math>x,y,z</math> are vectors; <math>a,b,c</math> are scalars) |
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#<math> x+y=y+x \ </math> |
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#<math> x+y=y+x </math> |
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#<math> x+(y+z)=(x+y)+z \ </math> |
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#<math> x+(y+z)=(x+y)+z \ </math> |
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#<math> x+0=x \ </math> |
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#<math> x+0=x \ </math> |
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Week of...
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Notes and Links
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1
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Sep 11
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About, Tue, HW1, Putnam, Thu
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2
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Sep 18
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Tue, HW2, Thu
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3
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Sep 25
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Tue, HW3, Photo, Thu
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Oct 2
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Tue, HW4, Thu
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5
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Oct 9
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Tue, HW5, Thu
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6
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Oct 16
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Why?, Iso, Tue, Thu
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7
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Oct 23
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Term Test, Thu (double)
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8
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Oct 30
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Tue, HW6, Thu
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9
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Nov 6
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Tue, HW7, Thu
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10
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Nov 13
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Tue, HW8, Thu
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11
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Nov 20
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Tue, HW9, Thu
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12
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Nov 27
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Tue, HW10, Thu
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13
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Dec 4
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On the final, Tue, Thu
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F
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Dec 11
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Final: Dec 13 2-5PM at BN3, Exam Forum
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Register of Good Deeds
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Add your name / see who's in!
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edit the panel
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Scan of Lecture Notes
Scan of Tutorial notes
Force Vectors
A force has a direction and a magnitude.
- There is a special force vector called 0.
- They can be added.
- They can be multiplied by any scalar.
Properties
(convention: are vectors; are scalars)
Definition
Let F be a field "of scalars". A vector space over F is a set V, of "vectors", along with two operations
9.
Examples
Ex.1.
Ex.2.
Ex.3.
form a vector space over .
Ex.4.
Ex.5.
is a vector space over .
Ex.6.