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Vector Journeys
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What is to be learned? How to get components of a vector using other vectors
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Useful (Indeed Vital!) To Know
Parallel vectors with the same magnitude will have the same………………… If vector AB has components ai + bj + ck, then BA will have components……………... components -ai – bj – ck
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Diversions Sometimes need alternative route! B A C E D AE = AB + BC
+ CD + DE
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Diversions Sometimes need alternative route! B A C E D AE = AB + BC
+ CD + DE
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Diversions Sometimes need alternative route! B A C E D AE = AB + BC
+ CD + DE
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Diversions Sometimes need alternative route! B A C E D AE = AB + BC
+ CD + DE
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Using Components AB = 2i + 4j + 5k and BC = 5i + 8j + 3k AC
DE = 6i + 5j + k and FE = -3i + 4j + 5k DF = 9i + j – 4k = AB + BC = 3i – 4j – 5k EF = DE + EF
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Wee Diagrams and Components
ABCD is a parallelogram T is mid point of DC C T Find AT D ( ) 846 AB = = DC B ( ) 351 BC = A = AD Info Given AT = AD + DT = AD + ½ DC ( ) ( ) ( ) 774 351 423 + =
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Wee Diagrams and Letters
u D C v -u -v ? AB = 4DC A B 4u Find AD in terms of u and v AD = 4u – v – u = 3u – v
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Vector Journeys Find alternative routes using diversions With Letters
AD = 3BC B C v Find CD in terms of u and v CD = CB + BA + AD = -v + u + 3v = 2v + u
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( ) ( ) ( ) E with components D C EABCD is a rectangular based pyramid
T divides AB in ratio 1:2 1 2 A T B EC = 2i + 4j + 5k 2/3 of CD BC = -3i + 2j – 3k ET = EC + CB + BT ( ) ( ) ( ) negative CD = 3i + 6j + 9k 245 246 = + + Find ET = 7i + 6j + 14k
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Questions Cunningly Acquired!
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also Vectors Higher VABCD is a pyramid with rectangular base ABCD.
The vectors are given by Express in component form. Ttriangle rule ACV Re-arrange Triangle rule ABC also Hint Previous Quit Quit Next
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[ ], [ ]and [ ]resp. VECTORS: Question 3 PQRSTUVW is a cuboid in which
PQ , PS & PW are represented by the vectors [ ], 4 2 [ ]and -2 [ ]resp. 9 A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. Find the components of PA & PB and hence the size of angle APB. Reveal answer only Go to full solution Go to Marker’s Comments Go to Vectors Menu EXIT
![[ ], [ ]and [ ]resp. VECTORS: Question 3 PQRSTUVW is a cuboid in which](http://slideplayer.com/slide/15390922/93/images/17/%5B+%5D%2C+%5B+%5Dand+%5B+%5Dresp.+VECTORS%3A+Question+3+PQRSTUVW+is+a+cuboid+in+which.jpg "PQ , PS & PW are represented by the vectors. [ ], [ ]and. -2. [ ]resp. 9. A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. Find the components of PA & PB and hence the size of angle APB. Reveal answer only. Go to full solution. Go to Marker’s Comments. Go to Vectors Menu. EXIT.")
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[ ], [ ]and [ ]resp. VECTORS: Question 3 PQRSTUVW is a cuboid in which
PQ , PS & PW are represented by the vectors [ ], 4 2 [ ]and -2 [ ]resp. 9 A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. Find the components of PA & PB and hence the size of angle APB. Reveal answer only |PA| = 29 Go to full solution |PB| = 106 Go to Marker’s Comments = ° APB Go to Vectors Menu EXIT
![[ ], [ ]and [ ]resp. VECTORS: Question 3 PQRSTUVW is a cuboid in which](http://slideplayer.com/slide/15390922/93/images/18/%5B+%5D%2C+%5B+%5Dand+%5B+%5Dresp.+VECTORS%3A+Question+3+PQRSTUVW+is+a+cuboid+in+which.jpg "PQ , PS & PW are represented by the vectors. [ ], [ ]and. -2. [ ]resp. 9. A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. Find the components of PA & PB and hence the size of angle APB. Reveal answer only. |PA| = 29. Go to full solution. |PB| = 106. Go to Marker’s Comments. = 48.1° APB. Go to Vectors Menu. EXIT.")
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[ ], [ ]and [ ]resp. [ ] [ ] = [ ] [ ] [ ]+ [ ]= [ ] + + Question 3
PA = PS + SA = PS + 1/3ST PQRSTUVW is a cuboid in which PQ , PS & PW are represented by vectors [ ], 4 2 [ ]and -2 [ ]resp. 9 PS + 1/3PW = [ ] -2 4 [ ] = 3 + [ ] -2 4 3 = A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. PB = PQ + QV + VB Find the components of PA & PB and hence the size of angle APB. PQ + PW + 1/2PS = [ ] 4 2 [ ]+ 9 + [ ]= -1 [ ] 3 4 9 Begin Solution = Continue Solution Markers Comments Vectors Menu Back to Home
![[ ], [ ]and [ ]resp. [ ] [ ] = [ ] [ ] [ ]+ [ ]= [ ] + + Question 3](http://slideplayer.com/slide/15390922/93/images/19/%5B+%5D%2C+%5B+%5Dand+%5B+%5Dresp.+%5B+%5D+%5B+%5D+%3D+%5B+%5D+%5B+%5D+%5B+%5D%2B+%5B+%5D%3D+%5B+%5D+%2B+%2B+Question+3.jpg "PA = PS + SA = PS + 1/3ST. PQRSTUVW is a cuboid in which. PQ , PS & PW are represented by vectors. [ ], [ ]and. -2. [ ]resp. 9. PS + 1/3PW. = [ ] [ ] = 3. + [ ] = A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. PB = PQ + QV + VB. Find the components of PA & PB. and hence the size of angle APB. PQ + PW + 1/2PS. = [ ] [ ] [ ]= -1. [ ] Begin Solution. = Continue Solution. Markers Comments. Vectors Menu. Back to Home.")
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[ ] [ ] [ ], [ ]and [ ]resp. [ ] Question 3 . PA = PB =
[ ] -2 4 3 [ ] 3 4 9 PB = PQRSTUVW is a cuboid in which PQ , PS & PW are represented by vectors [ ], 4 2 [ ]and -2 [ ]resp. 9 (b) Let angle APB = A P B ie A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. Find the components of PA & PB and hence the size of angle APB. PA . PB = [ ] -2 4 3 9 . Begin Solution = (-2 X 3) + (4 X 4) + (3 X 9) Continue Solution = Markers Comments = 37 Vectors Menu Back to Home
![[ ] [ ] [ ], [ ]and [ ]resp. [ ] Question 3 . PA = PB = ](http://slideplayer.com/slide/15390922/93/images/20/%5B+%5D+%5B+%5D+%5B+%5D%2C+%5B+%5Dand+%5B+%5Dresp.+%5B+%5D+Question+3+.+PA+%3D+%EF%82%AE+PB+%3D+%EF%82%AE.jpg "[ ] [ ] PB = PQRSTUVW is a cuboid in which. PQ , PS & PW are represented by vectors. [ ], [ ]and. -2. [ ]resp. 9. (b) Let angle APB = A. P. B. ie. A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. Find the components of PA & PB. and hence the size of angle APB. PA . PB = [ ] Begin Solution. = (-2 X 3) + (4 X 4) + (3 X 9) Continue Solution. = Markers Comments. = 37. Vectors Menu. Back to Home.")
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[ ], [ ]and [ ]resp. Question 3 PA . PB = 37
PQRSTUVW is a cuboid in which PQ , PS & PW are represented by vectors [ ], 4 2 [ ]and -2 [ ]resp. 9 |PA| = ((-2) ) = 29 |PB| = ( ) = 106 Given that PA.PB = |PA||PB|cos A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. then cos = PA.PB |PA||PB| = 37 29 106 Find the components of PA & PB and hence the size of angle APB. so = cos-1(37 29 106) Begin Solution Continue Solution = ° Markers Comments Vectors Menu Back to Home
![[ ], [ ]and [ ]resp. Question 3 PA . PB = 37](http://slideplayer.com/slide/15390922/93/images/21/%5B+%5D%2C+%5B+%5Dand+%5B+%5Dresp.+Question+3+PA+.+%EF%82%AE+PB+%3D+37.jpg "PQRSTUVW is a cuboid in which. PQ , PS & PW are represented by vectors. [ ], [ ]and. -2. [ ]resp. 9. |PA| = ((-2) ) = 29. |PB| = ( ) = 106. Given that PA.PB = |PA||PB|cos A is 1/3 of the way up ST & B is the midpoint of UV. ie SA:AT = 1:2 & VB:BU = 1:1. then cos = PA.PB. |PA||PB| = 37. 29 106. Find the components of PA & PB. and hence the size of angle APB. so = cos-1(37 29 106) Begin Solution. Continue Solution. = 48.1° Markers Comments. Vectors Menu. Back to Home.")
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( ) + ( ) Ex Suppose that AB = ( ) and BC = ( ) .
3 5 -1 8 Find the components of AC . ******** ( ) + ( ) = ( ) . 3 5 8 AC = AB + BC = -1 8 7 Ex Simplify PQ - RQ ******** PQ - RQ = PQ + QR = PR
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