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Physics 201 2: Vectors Coordinate systems Vectors and scalars Rules of combination for vectors Unit vectors Components and coordinates Displacement and.

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Presentation on theme: "Physics 201 2: Vectors Coordinate systems Vectors and scalars Rules of combination for vectors Unit vectors Components and coordinates Displacement and."— Presentation transcript:

1 Physics 201 2: Vectors Coordinate systems Vectors and scalars Rules of combination for vectors Unit vectors Components and coordinates Displacement and position vectors Differentiating vectors Kinetic equations of motion in vector form Scalar (=dot) product of vectors

2 Coordinate Systems 1. Fix a reference point : ORIGIN 2. Define a set of directed lines that intersect at origin: COORDINATE AXES 3. Instructions on how to label point with respect origin and axes.

3 r  x y b a p rectangular cartesian coordinates of point “p” = (a,b) plane polar coordinates of point “p” = (r,  )

4 Measurement of Angles r s in Radians  is measured counterclockwise from + x-axis

5

6 Vectors and scalars Scalar: has magnitude but no direction e.g. mass, temperature, time intervals,..... Vector: has magnitude and direction e.g. velocity, force, displacement,...... Displacement vector line segment between final position and initial position.

7 can always represent a vector by a directed line segment: x y  Properties of vectors denoted by: v or  v v magnitude= length denoted by: v or v or v

8 Two vectors are equal if they have same length same direction = parallel transport is moving vector without changing length or direction

9 + V1V1 V2V2 Addition tip tail

10 V1V1 V2V2 V2V2 V1V1 + V 2

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12 Unit vectors Any vector that has magnitude 1 i.e. a =1 is a unit vector

13 special unit vectors k j i

14 V V = x i + y j components of vectors i x j y

15 V j y i x

16 x i y j v 

17 coordinates of vectors V (x,y) xixi yjyj V=xi + yj V

18 1-1 correspondence between vectors and their coordinates V = x i + y j =(x, y) Addition: a  a x i  a y j  a x,a y  b  b x i  b y j  b x,b y  a  b  a x  b x  i  a y  b y  j  a x  b x,a y  b y 

19 b a Scalar Product

20 coordinate form of scalar product

21 i j V V  xi  yj V  i  x  V Cos    V  j  y  V Sin   

22 Polar form of vectors v  v x i  v y j  vcos  i  vsin  j  vcos  i  sin  j   vcos ,sin   now cos  i  sin  j   cos 2  sin 2  1 Thus ˆ v  cos  i  sin  j is a unit vector in the direction of v and v  v ˆ v POLAR FORM of the vector v ˆ v = v v

23 Special Vectors (x,y) r riri rfrf d

24 differentiating vectors

25 Vector Kinetic Equations of Motion

26 Solving Problems Involving Vectors 1. Graphically ! Draw all vectors in pencil ! Arrange them tip to tail ! Draw a vector from the tail of the first vector to the tip of the last one.

27 ! measure the angle the vector makes with the positive x-axis ! measure the length of the vector. ! measure the length of its X component ! measure the length of its Y component

28 2. Algebraically ! write all vectors in terms of their X and Y components ! The X component of the sum of the vectors is the sum of the X components ! The Y component of the sum of the vectors is the sum of the Y components


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