vectors & scalars vectors are measurements which have both magnitude (size) and a directional...
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Vectors & ScalarsVectors are measurements which have both
magnitude (size) and a directional component.
Scalars are measurements which have only magnitude (size) and no directional component
EXAMPLES OF VECTOR VALUES:Displacement
VelocityAcceleration
ForceDirection counts in all of these measurements.
EXAMPLES OF SCALAR VALUES:Distance
SpeedTemperature
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Comparing Vector & Scalar ValuesDisplacement (a vector) versus distance (a scalar)
LAKE TRANQUILITY
A
B
We want to get from point A to point B. If we follow the road around the lake our direction is always changing. There is no specific
direction. The distance traveled on the road is a scalar quantity.
A straight line between A and B is the displacement. It has a specificdirection and is therefore a vector.
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Speed & VelocitySpeed and velocity are not the same.
Velocity requires a directional component and is therefore a vector quantity.
Speed tells us how fast we are going but not which way.Speed is a scalar (direction doesn’t count!)
9080
706050
403020
10
SPEEDOMETER
N
S
EW
COMPASS
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Vectors are typically illustrated by drawing an ARROW
The direction of the physical quantity is given by the direction of the arrow.
The magnitude of the quantity is given by the length of the arrow and it is denoted by |F|.
It is a good habit to label your vectors in a diagram
The direction of the physical quantity is given by the direction of the arrow.
The magnitude of the quantity is given by the length of the arrow and it is denoted by |F|.
It is a good habit to label your vectors in a diagram
F=10N
VECTOR
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MAGNITUDE & DIRECTION
MAGNITUDE DISPLACEMENT - METERS, FEET, MILES ETC. FOR VELOCITY - METERS PER SECOND, FEET PER
MINUTE, etc FORCE - NEWTONS, DYNES OR POUNDS.
DIRECTION
- DEGREES- RADIANS - GEOGRAPHIC INDICATORS SUCH AS NORTH,
EAST, SOUTH, NORTHEAST, ETC.
- KNOWLEDGE OF COORDINATE GEOMETRY
(X-Y PLANE)
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Up = + Down = - Right = + Left = -
y
x
+
+
-
-
Quadrant IQuadrant II
Quadrant III Quadrant IV
0 o East
90 o North
West 180 o
270 o South
360 o
Rectangular Coordinates
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0O East
90O North
West 180O
270O South
360O
+x
+y
- x
- y
120O
-240O
30O West of North30O Left of +y
60O North of West60O Above - x
MEASURING THESAME DIRECTION
IN DIFFERENT WAYS
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VECTOR NOTATIONSVECTOR NOTATION MAY TAKE SEVERAL DIFFERENT
FORMS:• POLAR /CIRCULAR FORM INDICATES A MAGNITUDE VALUE AND A DIRECTIONAL
VALUE. THE DIRECTION VALUE MAY BE IN DEGREES, RADIANS OR GEOGRAPHIC TERMS.
• RECTANGULAR FORM IDENTIFIES THE X-Y COORDINATES OF THE VECTOR. THE VECTOR ITSELF EXTENDS FROM ORIGIN TO THE X-Y POINT.– EXAMPLES: (X = +10, Y = -10) or (10, -10) – THE MAGNITUDE OF THE VECTOR CAN BE FOUND USING THE
PYTHAGOREAN THEOREM (102 + (-102))1/2 = 14.1 - THE DIRECTION CAN BE FOUND USING AN INVERSE TANGENT
FUNCTION TAN-1 (10/10) = TAN-1 (1.0) = 45O SINCE X IS POSITIVE AND Y IS NEGATIVE THE ANGLE IS -45O AND IS IN QUADRANT IV OR 315O
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Circular NotationCircular notation defines a vector by
designating the vector’s magnitude |A| and angle θ relative to the +x axis. Using that notation the vector is written:
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315O
0O East
90O North
West 180O
270O South
360O
+x
+y
- x
- y
-45O or45O SOUTH OF EAST
•POLAR COORDINATES14 METERS , θ=315O
14 METERS, θ= -45O
14 METERS, 45O SOUTH OF EAST
CIRCULAR NOTATIONS
A=14 m
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Circular NotationExample:Force vector with magnitude 12 Newtons oriented at 210 degrees with the + x-axis.
F = 12 N, θ = 210°F = 12 N, θ = 210°
F = 12 N, θ = -150°F = 12 N, θ = -150°
F = 12 N, 30° South of WestF = 12 N, 30° South of West
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Circular Notation
In this picture, we have a force vector of 4 Newtons oriented along the -x axis.
F = 4 N, θ = 180°
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Circular Notation
In the picture above we have 2 vectors C and D. How do we characterize the two vectors?
C = 2, θ = 30°
D = 4 , θ = -50° or D = 4, θ = 310°
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Circular Notation
Exercises: Draw the vectors graphically.
1. A= 6, 30° North of West
2. B= 3, θ = 330 °
3. C= 20, 45° West of South
4. D= 5, θ = -240 °
5. E= 8, 60° SE
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ADDITION/ SUBTRACTION OF VECTORS
• TWO METHODS1. GRAPHICAL METHOD (DRAWING) 2. COMPONENT METHOD (MATHEMATICAL).
• GRAPHICAL ADDITION AND SUBTRACTION REQUIRES THAT EACH VECTOR BE REPRESENTED AS AN ARROW WITH A LENGTH PROPORTIONAL TO THE MAGNITUDE VALUE AND POINTED IN THE PROPER DIRECTION ASSIGNED TO THE VECTOR.
(Note: We need ruler and protractor)
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SCALE
= 10 METERS
50 METERS ,θ= 0O
30 METERSθ= 90O
30 METERS ,θ= 45O
VECTOR ARROWS MAY BE DRAWN ANYWHERE ON THE PAGE AS
LONG AS THE PROPER LENGTH AND DIRECTION ARE MAINTAINED
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• VECTORS ARE ADDED GRAPHICALLY BY DRAWING EACH VECTOR TO SCALE AND ORIENTED IN THE PROPER DIRECTION. THE VECTOR ARROWS ARE PLACED HEAD TO TAIL. THE ORDER OF PLACEMENT DOES NOT AFFECT THE RESULT
(A + B = B + A)• THE RESULT OF THE VECTOR ADDITION IS CALLED
THE RESULTANT VECTOR. IT IS MEASURED FROM THE TAIL OF THE FIRST VECTOR ARROW TO THE HEAD OF THE LAST ADDED VECTOR ARROW.
• THE LENGTH OF THE RESULTANT VECTOR ARROW CAN THEN BE MEASURED AND USING THE SCALE FACTOR CONVERTED TO THE CORRECT MAGNITUDE VALUE. THE DIRECTIONAL COMPONENT CAN BE MEASURED USING A PROTRACTOR.
GRAPHICAL METHOD
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A
B
C
D
A
BC
DR
A + + + =B C D R
ALL VECTORS MUST BE DRAWN TO
SCALE & POINTED INTHE PROPER DIRECTION
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SCALE
= 10 METERS
Vector B50 METERS @ 0O
Vector C30 METERS
@ 90O
Vector A30 METERS @ 45O
A
B
C
Resultant = 9 x 10 = 90 meters
Angle is measured at 40o
To add the vectorsPlace them head to tail
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• IN ALGEBRA, A – B = A + (-B) OR IN OTHER WORDS, ADDING A NEGATIVE VALUE IS ACTUALLY SUBTRACTION. THIS IS ALSO TRUE IN VECTOR SUBTRACTION. IF WE ADD A NEGATIVE VECTOR B TO VECTOR A THIS IS REALLY SUBTRACTING VECTOR B FROM VECTOR A.
• VECTOR VALUES CAN BE MADE NEGATIVE BY REVERSING THE VECTOR’S DIRECTION BY 180 DEGREES. IF VECTOR A IS 30 METERS DIRECTED AT 45 DEGREES (QUADRANT I), NEGATIVE VECTOR A IS 30 METERS AT 225 DEGREES (QUADRANT II).
WORKING WITH VECTORS GRAPHIC SUBTRACTION
Vector A30 METERS @ 45O
Vector - A30 METERS @ 225O
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A
B
C
D A + - - =B C D R
A + + ( - ) + ( - ) =B C D R
-C
=
-D=
A
-D
R
B
-C
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Graphical Method - Examples
1. A man walks 54.5 meters east, then another 30 meters east. Calculate his displacement relative to where he started?
54.5 m, E 30 m, E+
R= 84.5 m, E
Notice that the SIZE of the arrow conveys MAGNITUDE and the way it was drawn conveys DIRECTION.
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Graphical Method - Examples
2. You walk 50 meters 60 degrees north of west, then another 85 meters in opposite direction. Calculate your displacement relative to where you started?
N
E W
S
60°
60°
R=35, θ=300°
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COMPONENT METHOD
• PYTHAGOREAN THEOREM• TRIGONOMETRIC FUNCTIONS• HORIZONTAL AND VERTICAL
COMPONENTS OF THE VECTOR
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A
B
C
Sin = A / C
Cos = B / C
Tan = A / B
AC
B
A
BA RIGHT TRIANGLE
C
= Arctan (A / B)
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y
x
+
+
-
- 0 radians radians
3/2 radians
2 radians
Quadrant III
Quadrant IV
Quadrant I
Quadrant II
Sin Cos Tan + + +
+ - -- - +
- + -
/2 radians
90 o
0 o
180 o
270 o
360 o
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A
X COMPONENT
Y COMPONENT
X COMPONENT
Y COMPONENTB
Y COMPONENT
X COMPONENT
C
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X
Y
A
Ax
Ay
Ax A = COS
A= SIN Ay
is the angle between the +x-axis and the vector.
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• THE SIGNS OF THE X AND Y COMPONENTS DEPEND ON WHICH QUADRANT THE VECTOR LIES.
• VECTORS IN QUADRANT I (0 TO 90 DEGREES) HAVE POSITIVE X AND POSITIVE Y VALUES
• VECTORS IN QUADRANT II (90 TO 180 DEGREES) HAVE NEGATIVE X VALUES AND POSITIVE Y VALUES.
• VECTORS IN QUADRANT III (180 TO 270 DEGREES) HAVE NEGATIVE X VALUES AND NEGATIVE Y VALUES.
• VECTORS IN QUADRANT IV (270 TO 360 DEGREES) HAVE POSITIVE X VALUES AND NEGATIVE Y VALUES.
VECTOR COMPONENTS
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WHAT ARE THE X AND Y COMPONENTS OF THE FOLLOWING VECTORS?
1. A =40 m, = 60O ?
2. V= 60 m/s, = 2450 ?
VECTOR COMPONENTS
Ax A = COS A= SIN Ay
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VECTOR COMPONENTS
Exercises: Find the x and y components of the following vectors.
1. A= 100 N, 30° North of East
2. B= 30 km, θ = 330 °
3. C= 20 m, 45° West of South
4. D= 50 m/s, θ = -240 °
5. E= 80 N, 60° Southeast
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Analytical Method of Vector AdditionAnalytical Method of Vector Addition1. Find the x- and y-components of each vector.
Ax = A cos = Ay = A sin = Bx = B cos = By = B sin =Cx = C cos = Cy = C sin =
2. Sum the x-components. This is the x-component of the resultant.
Rx =
3. Sum the y-components. This is the y-component of the resultant.
Ry =
4. Use the Pythagorean Theorem to find the magnitude of the resultant vector.Rx
2 + Ry2 = R2
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ADDING & SUBTRACTING VECTORS USING COMPONENTS
Vector A30 METERS @ 45O
Vector B50 METERS @ 0O
Vector C30 METERS
@ 90O
ADD THE FOLLOWINGTHREE VECTORS USING
COMPONENTS
(1) RESOLVE EACH INTO X AND Y COMPONENTS
V= SIN Vy
Vx V = COS
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COMPONENT METHODCOMPONENT METHOD
•CX = 30 COS 900 = 0 CY = 30 SIN 900 = 30
• AX = 30 COS 450 = 21.2 AY = 30 SIN 450 = 21.2
•BX = 50 COS 00 = 50 BY = 50 SIN 00 = 0
(1) SOLVE EACH INTO X AND Y COMPONENTS(1) SOLVE EACH INTO X AND Y COMPONENTS
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(2) ADD THE X COMPONENTS OF EACH VECTOR ADD THE Y COMPONENTS OF EACH VECTOR
(2) ADD THE X COMPONENTS OF EACH VECTOR ADD THE Y COMPONENTS OF EACH VECTOR
Rx = 21.2 + 50 + 0 = +71.2Ry= 21.2 + 0 + 30 = +51.2
(3) CONSTUCT A NEW RIGHT TRIANGLE USING THERx AS THE BASE AND Ry AS THE OPPOSITE SIDE
(3) CONSTUCT A NEW RIGHT TRIANGLE USING THERx AS THE BASE AND Ry AS THE OPPOSITE SIDE
Rx = +71.2
Ry = +51.2
THE HYPOTENUSE IS THE RESULTANT VECTOR
R
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(4) USE THE PYTHAGOREAN THEOREM TO THE LENGTH(MAGNITUDE) OF THE RESULTANT VECTOR
(4) USE THE PYTHAGOREAN THEOREM TO THE LENGTH(MAGNITUDE) OF THE RESULTANT VECTOR
Rx = +71.2
Ry = +51.2
(+71.2)2 + (+51.2)2 = 87.7
(5) FIND THE ANGLE (DIRECTION) USING INVERSETANGENT OF THE OPPOSITE SIDE OVER THE
ADJACENT SIDE
(5) FIND THE ANGLE (DIRECTION) USING INVERSETANGENT OF THE OPPOSITE SIDE OVER THE
ADJACENT SIDE
θ=TAN-1 (51.2/71.2)ANGLE = 35.7 O
QUADRANT I
R = 87.7 m , θ = 35.7 OR = 87.7 m , θ = 35.7 O
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SUBTRACTING VECTORS USING COMPONENTS
Vector A30 m @ 45O
Vector C30 m
@ 90O
Vector B50 m @ 0O
A - + =B C R
A + (- ) + =B C R
Vector A
30 METERS @ 45O
- B=
50 METERS @ 180O
Vector C
30 METERS @ 90O
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1. SOLVE THE X AND Y COMPONENTS
• AX = 30COS 450 = 21.2 METERS
• AY = 30 SIN 450 = 21.2 METERS
•BX = 50 COS 1800 = - 50 METERS
•BY = 50 SIN 1800 = 0 METERS
•CX = 30 COS 900 = 0 METERS
•CY = 30 SIN 900 = 30 METERS
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(2) ADD THE X COMPONENTS OF EACH VECTOR ADD THE Y COMPONENTS OF EACH VECTOR
Rx = SUM OF THE Xs = 21.2 + (-50) + 0 = -28.8RY =SUM OF THE Ys = 21.2 + 0 + 30 = +51.2
(3) CONSTUCT A NEW RIGHT TRIANGLE USING THERx AS THE BASE AND RY AS THE OPPOSITE SIDE
Rx = -28.8
RY = +51.2
THE HYPOTENUSE IS THE RESULTANT VECTOR
R
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(4) USE THE PYTHAGOREAN THEOREM TO THE FIND THE LENGTH (MAGNITUDE) OF THE RESULTANT VECTOR
Rx = -28.8
Ry = +51.2
ANGLE TAN-1 (51.2/-28.8)ANGLE = -60.6 0
(1800 –60.60 ) = 119.40
QUADRANT II
(-28.8)2 + (+51.2)2 = 58.7
(5) FIND THE ANGLE (DIRECTION) USING INVERSETANGENT OF THE OPPOSITE SIDE OVER THE
ADJACENT SIDE
RESULTANT = 58.7 METERS @ 119.4O
R =
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ExampleA bear, searching for food wanders 35 meters east then 20 meters north. Frustrated, he
wanders another 12 meters west then 6 meters south. Calculate the bear's displacement.
3.31)6087.0(
6087.23
14
93.262314
1
22
Tan
Tan
mR
35 m, E
20 m, N
12 m, W
6 m, S
- =23 m, E
- =14 m, N
23 m, E
14 m, N
The Final Answer:
R
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ExampleA boat moves with a velocity of 15 m/s, N in a river which flows with a velocity of
8.0 m/s, west. Calculate the boat's resultant velocity with respect to due north.
1.28)5333.0(
5333.015
8
/17158
1
22
Tan
Tan
smRv
15 m/s, N
8.0 m/s, W
Rv
The Final Answer :
![Page 44: Vectors & Scalars Vectors are measurements which have both magnitude (size) and a directional component. Scalars are measurements which have only magnitude](https://reader036.vdocuments.us/reader036/viewer/2022062321/56649e875503460f94b8b3b0/html5/thumbnails/44.jpg)
1.Ehra begins a three-day hiking trip by first walking 25 km, 30° south of east from her base camp. On the second day, she walks 40 km in a direction 60° north of east. On the third day, she walks 35 km, 50° south of west. What is her resultant displacement from base camp?
2.ICADEMY commuter jet departs NAIA and flies 175 km 30° East of North, turns and flies 150 km , 20° North of West, and finally flies 190 km west to its destination. What is its resultant displacement?
3. Find the resultant velocity vector for the following: V1 = 89 km/h , 55° East of SouthV2 = 46 km/h , 28° South of West V3 = 37 km/h , South
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