physics 1 vectors - santa rosa junior collegelwillia2/physics1/phys1ch3_s14.pdfcan not always just...
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Physics 1
Vectors
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Cartesian Coordinate System
• Also called
rectangular coordinate
system
• x- and y- axes intersect
at the origin
• Points are labeled (x,y)
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Polar Coordinate System
– Origin and reference
line are noted
– Point is distance r from
the origin in the
direction of angle ,
ccw from reference
line
– Points are labeled (r,)
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Cartesian to Polar Coordinates
• r is the hypotenuse and
an angle
must be ccw from
positive x axis for these
equations to be valid
2 2
tany
x
r x y
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Example
• The Cartesian coordinates of
a point in the xy plane are
(x,y) = (-3.50, -2.50) m, as
shown in the figure. Find the
polar coordinates of this
point.
Solution:
2 2 2 2( 3.50 m) ( 2.50 m) 4.30 mr x y
1 2.50 mtan ( ) 35.5
3.50 m
180 35.5 216
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Polar to Cartesian Coordinates
• Based on forming
a right triangle
from r and
• x = r cos
• y = r sin
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Vector quantities have both magnitude and direction
A
The length of the vector
represents the magnitude of
the vector. The orientation
represents the direction or
angle of the vector.
Example: velocity of 2 km/hr, 30 degrees north of east.
2 km/hr is the magnitude, 30 degrees north or east, the direction.
Scalars only have magnitude: T = 82 degrees Celsius.
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• The vector is written with an arrow over head and includes both magnitude and direction.
A= 2km, 30 NE
A 2A magnitude km 30
2km
Writing Vectors
• Magnitude (length of vector) is written with
no arrow or as an absolute value:
• Text books use BOLD. Hard to write bold!
A= ,A
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Vector Example
• A particle travels from A to B along the path shown by the dotted red line
– This is the distance traveled and is a scalar
• The displacement is the solid line from A to B
– The displacement is independent of the path taken between the two points
– Displacement is a vector
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Equality of Two Vectors
• Two vectors are equal
if they have the same
magnitude and the
same direction
• A = B if A = B and
they point along
parallel lines
• All of the vectors
shown are equal
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WARNING!
Vector Algebra is Weird!! Vectors have a different rules of operation for addition,
subtraction, multiplication and division than ordinary real
numbers!!!! Since vectors have magnitude and direction you
can not always just simply add them!!!!
A & B co-linear A & B NOT colinear
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• When you have many
vectors, just keep
repeating the process
until all are included
• The resultant is still
drawn from the origin
of the first vector to
the end of the last
vector
Adding Vectors
The Graphical Method
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Adding Vectors
Head to Tail
R=A + B = B + A
When two vectors are
added, the sum is independent of the order of the addition.
– This is the commutative law of addition
– A + B = B + A
– The sum forms the diagonal of a Parallelogram!
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•Draw vectors to scale.
•Draw the vectors “Tip to Tail.”
•IMPORTANT: the angle of a vector is relative its own tail!
•The resultant, R, is drawn from the tail of the first to the
head of the last vector.
•Use a ruler to MEASURE the resultant length.
•Use a protractor to MEASURE the resultant angle.
Adding Vectors
The Graphical Method
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Each of the displacement vectors A and B shown has a magnitude of 3.00 m. Find graphically (a) A + B, (Report all angles counterclockwise from the positive x axis. Use a scale of:
1 unit 0.5 m
5.2m,60
Adding Vectors:
Graphical Method
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Subtraction of Vectors
( )A C B
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Subtracting Vectors
• If A – B, then use
A+(-B)
• The negative of the
vector will have the
same magnitude, but
point in the opposite
direction
• Two ways to draw
subtraction:
How do you go
from A to -B ?
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The distance between two vectors is
equal to the magnitude of the
difference between them! More on this later…
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A
B
R
1. Draw 1st vector tail A at origin
2. Draw 2nd vector B with tail at the head
of the 1st vector, A. The angle of B is
measured relative to an imaginary axis
attached to the tail of B.
3. The resultant is drawn from the tail of
the first vector to the head of the last
vector.
R A B
R A B
A B
R
A B
R OR
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Subtracting Vectors: Very Important
for 2-D Kinematics (Chapter 4)
rv
t
va
t
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Parallelogram Method
Addition & Subtraction
R X Y R X Y
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Vector Question
When three vectors, A, B, and C are placed
head to tail, the vector sum is:
If the vectors all have the same magnitude, the
angle between the directions of any two adjacent
vectors is
a. 30
b. 60
c. 90
d. 120
e. 150
A B C 0
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Each of the displacement vectors A and B shown has a magnitude of 3.00 m. Find graphically (a) A + B, (b) A B, (c) B A Report all angles counterclockwise from the positive x axis. Use a scale of:
5.2m,60 3m,330 3m,150
Adding Vectors:
Graphical Method
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xA AcosA
yA Asin A
x yA= A ,A
2 2
-1
A
tan
x y
y
A
x
A A
A
A A A,A
Vector Components
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C A B Vector Addition
Components Method
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C A B Vector Addition
Components Method
x x xC =A +B
y y yC =A +B
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C A B Vector Addition
Components Method
x x xC =A +B
y y yC =A +B
2 2
-1tan
x y
y
C
x
C C C
C
C
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Adding Vectors
Using Unit Vectors
• R = A + B
• Rx = Ax + Bx and Ry = Ay + By
ˆ ˆ ˆ ˆ
ˆ ˆ
ˆ ˆ
x y x y
x x y y
x y
A A B B
A B A B
R R
R i j i j
R i j
R i j
2 2 1tany
x y
x
RR R R
R
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Problem Three displacement vectors of a croquet ball are shown, where |A| = 20.0 units, |B| = 40.0 units, and |C| = 30.0 units. Find (a) the resultant in unit-vector notation and (b) the magnitude and direction of the resultant displacement.
40.0cos45.0 30.0cos45.0 49.5 xR
2 2
49.5 27.1 56.4 R
40.0sin 45.0 30.0sin 45.0 20.0 27.1 yR
1 27.1tan 28.7
49.5
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Projectile Motion
Ignore Air Resistance!
Most Important: X and Y components are INDEPENDENT of each other!
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Projectile Motion: Vector Picture
21
2 f ir v gt t
Motion with
no acceleration
ˆ ˆ( ) v xi yiv i v gt j
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Zero at the Top!
Y component of velocity is zero at
the top of the path in both cases!
You know they have the y component of velocity is the
same in both cases because they reached the same height!
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First the SIMPLE Case:
Horizontal Launch
The x-component doesn’t change (no acceleration in x-direction.)
The y-component changes (a = -g.)
(Ignore Air Resistance)
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Projectile Motion Same cannons, Same height. One dropped, One shot.
Which hits the ground first? SAME! Both falling the same height!
Horizontal speed doesn’t affect vertical speed or
the time to hit the ground!
Only y determines time!
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Projectile Motion
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Horizontal and vertical components are independent of each other!
Gravity acts in the vertical direction but not in the horizontal direction!!
Speed in vertical direction speeds up!
Speed in horizontal direction stays the same!
Projectile Motion
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No Change
change
0xa
ya g
Actual path is a
vector sum of
horizontal and
vertical motions.
Projectile Motion
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Plane and Package
An airplane traveling at a constant speed and height
drops a care package. Ignoring air resistance, at the
moment the package hits the ground, where is it
relative to the plane?
a) Behind the plane.
b) Under the plane.
c) In front of the plane.
Dropping From Moving Frame
Any object dropped from a
plane has the same initial
velocity as the plane!
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Care Package An airplane moves horizontally with constant velocity of 115 m/s
at an altitude of 1050m and drops a care package as shown.
How far from the release point does the package land?
?x
1050m
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Care Package Strategy: Find the time the package drops to get the horizontal
distance. The time to drop is just the free fall time!!!
The horizontal displacement takes the same time as it takes the
package to drop.
xx v t
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Care Package
0
2
:
0, 115 /
1050 , ?
9.8 / , 0
y x
y x
Knowns
v v m s
y m x
a m s a
Strategy: Find time from y info to
solve for .xx v t
2
0
1 2
2y
y
yy v t a t t
a
xx v t
115 / (14.6 ) m s s
1680x m
14.6t s
With what velocity does it hit the ground?
2
2( 1050 )
( 9.8 / )
mt
m s
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Care Package
0
2
:
0, 115 /
1050 , 1680
9.8 / , 0
y x
y x
Knowns
v v m s
y m x m
a m s a
Strategy: Find final velocity in y
direction and use it in:
2 2 1, tany
x y
x
vv v v
v
0yf y yv v a t
14.6t s 20 ( 9.8 / )(14.6 )m s s
143 /m s
2 2
2 2 (115 / ) ( 143 / )
184 /
x yv v v
m s m s
m s
1 1 143 /tan tan
115 /
51.3
y
x
v m s
v m s
(184 / , 51.3 )v m s
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Question
d
The ball is thrown horizontally at 20 m/s.
About how long does it take to hit the ground?
How far does it travel in the horizontal direction?
20 1 20 xi
mx v t s m
s
210 /g m s
21
2yiy v t gt
21
yt s
g
0
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Question
d
The ball is thrown horizontally at 30 m/s.
About how long does it take to hit the ground?
How far does it travel in the horizontal direction?
30 1 30 xi
mx v t s m
s
210 /g m s
21
2yiy v t gt
21
yt s
g
Only y determines time!
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Question
The ball is thrown horizontally at 100 m/s.
How long does it take to hit the ground? 1 Second!!
How far does it travel in the horizontal direction?
100 1 100 xi
mx v t s m
s
210 /g m s
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Curvature of Earth
If you threw the ball at 8000 m/s off the surface of the Earth
(and there were no buildings or mountains in the way)
how far would it travel in the vertical and horizontal
directions in 1 second?
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Curvature of Earth
If you threw the ball at 8000 m/s off the surface of the Earth
(and there were no buildings or mountains in the way)
how far would it travel in the vertical and horizontal
directions in 1 second?
: 8000 / 1 8000 xhorizontal x v t m s s m
22 21
: 5 5 1 52
vertical y gt t s m
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Curvature of Earth
If you threw the ball at 8000 m/s off the surface of the Earth
(and there were no buildings or mountains in the way)
how far would it travel in the vertical and horizontal
directions in 1 second?
: 8000 / 1 8000 xhorizontal x v t m s s m
22 21
: 5 5 1 52
vertical y gt t s m
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Curvature of Earth
If you threw the ball at 8000 m/s off the surface of the Earth
(and there were no buildings or mountains in the way)
how far would it travel in the vertical and horizontal
directions in 1 second?
Does the ball ever hit the Earth????
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Curvature of Earth
Curvature of the Earth: Every 8000 m,
the Earth curves by 5 meters!
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Orbital Velocity If you can throw a ball at 8000m/s, the Earth curves away
from it so that the ball continually falls in free fall around the
Earth – it is in orbit around the Earth!
Above the atmosphere
Ignoring
air
resistance.
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Orbital Motion| & Escape Velocity
8km/s: Circular orbit
Between 8 & 11.2 km/s: Elliptical orbit
11.2 km/s: Escape Earth
42.5 km/s: Escape Solar System!
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Projectile Motion IS Orbital Motion
The Earth is in the way!
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Projectiles Launched at an Angle:
The simple case: y=0
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Projectile Motion
A place kicker kicks a football at an angle of 40 degrees above the
horizontal with an initial speed of 22 m/s. Ignore air resistance and
find the total time of flight, the maximum height and the range the
ball attains.
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Maximum range is achieved at a
launch angle of 45°!
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Symmetry in the Projectile Range
is symmetric about 45°
2 sin 2i ivR
g
sin 2
Range Equation:
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Same rock, same speed, same angle.
Which rock hits the water first?
a) Rock 1 b) Rock 2 c) same
Which rock hits the water with the greatest speed?
a) Rock 1 b) Rock 2 c) same
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Which rock hits the water first?
a) Rock 1 b) Rock 2 c) same
Which rock hits the water with the greatest speed?
a) Rock 1 b) Rock 2 c) same
Spatial
Symmetry
In G Field!
Same rock, same speed, same angle.
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Projectile Motion
Launched at an Angle
The x-component doesn’t change (no acceleration in x-direction.)
The y-component changes (a = -g.)
(Ignore Air Resistance)
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Relative Velocity • Two observers moving relative to each other generally do
not agree on the outcome of an experiment
• For example, observers A and B below see different paths
for the ball and measure different velocities:
bB bA ABv v vVelocity of ball
relative to
observer B
Velocity of ball
relative to
observer A
Velocity of A
relative to
observer B
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Co-Linear Motion Just add or subtract the magnitudes of vectors!
PG PT TGv v v
Notice how the inner subscripts cancel!
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Train Rain A person looking out the window of a stationary train
notices that raindrops are falling vertically down at a
speed of 5.00 m/s relative to the ground. When the
train moves at a constant velocity, the rain drops make
an angle of 25 degrees when the move past the
window, as the drawing shows. How fast is the train
moving?
RT RG GTv v v We know:
We want vTG:
RG TGv v 25 RGv
TGv
RTv
tan 25TG RGv v
5 / tan 25m s 2.33 /m s
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You Try Rain
A car travels in a due northerly direction at a speed of 55
km/h. The traces of rain on the side windows of the car
make an angle of 60 degrees with respect to the horizontal.
If the rain is falling vertically with respect to the earth, what is
the speed of the rain with respect to the earth?
a. 48 km/h
b. 95 km/h
c. 58 km/h
d. 32 km/h
e. 80 km/h
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While driving a car in the rain falling straight down relative to
the ground, the rear window can remain dry! Why?
We know the velocity of the raindrop and the car
relative to the ground. To determine whether the
raindrop hits the window we need to consider the
velocity of the raindrop relative to the car:
RC RG GCv v v
RG CGv v
The velocity of the ground
relative to the car is just negative
the velocity of the car
relative to the ground!
If the direction of the rain relative to the car,
R, is greater than the angle of the rear
window, W, the rain will not hit the rear
window! The faster the car, the greater the
angle of the rain and the rear window can
remain dry!
1tan ( )CGR
RG
v
v
From the vector diagram of the relative velocities:
ØW
ØR
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Previous problems all involved right
triangles….how do you solve if you
don’t have right triangle relationship
between relative velocities?
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Using vector component addition
A ferry boat is traveling in a direction 35.1 degrees north
of east with a speed of 5.12 m/s relative to the water. A
passenger is walking with a velocity of 2.71m/s due east
relative to the boat. What is the velocity of the passenger
with respect to the water? Determine the angle relative to
due east.
2 2(6.9) (2.94) / 7.50 /PWv m s m s
PWv
PBv
BWv
PW PB BWv v v
1 2.94tan ( ) 23.1
6.9PW
PW
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Relative Velocity A plane is moving at 45m/s due north relative to the air, while its
velocity relative to the ground is 38.0m/s, 20 degrees west of north.
What is the velocity of the wind relative to due west?
/ / / plane ground plane wind wind groundv v v
2 2 2 2 cos20c a b ab
One Method: Use Law of Cosines:
2 238 45 2(38)(45)cos20c
16 /wv m s
1 38sin(20) /cos 35.7
16 /
m s
m s