Post on 12-Jan-2016
PHYS 20 LESSONS
Unit 2: 2-D Kinematics
Projectiles
Lesson 1: 2-D Vectors
Adding vectors (Tail-to-tip)
Reading Segment #1:
2-D Vectors
To prepare for this section, please read:
Unit 2: p.2
A. 2-D VECTORS
Recall, when we dealt with 1-D vectors, there were only
two possible directions.
We made one direction positive and the other direction negative.
Now, we will deal with 2-D vectors, where there are many
more than two directions. Expressing its direction is more
complicated.
A1. Direction of 2-D Vectors
- there are two methods to express the direction of 2-D vectors
that we use in Physics 20:
1. NEWS (North, East, West, South)
- acute angles measured with respect to the
nearest axis
2. RCS (rectangular coordinate system)
- angles measured in standard position (from
the positive x-axis)
1. Angles in NEWS N V
= 50W E
S
Method:
The angle is always positive and less than 90 (acute)
The angle is described relative to a nearby axis
i.e.
= 50 N of E
(North of the East Axis)
e.g. V N
60 W E
S
How would express this angle in NEWS?
e.g. V N
60 W E
S
= 60 of
In the NEWS method:
- you always show the acute angle on the diagram
- then, you will place two letters after the angle
(these are shown as spaces)
e.g. V N
60 W E
S
= 60 of W
The second letter is the axis that the angle "touches".
In this case, the angle is touching the West axis.
e.g. V N
60 W E
S
= 60 N of W
The first letter is the direction the angle moves from
the reference axis.
In this case, the angle is moving towards the North.
e.g. V N
60 W E
S
= 60 N of W
We interpret this as:
"60 degrees North from the West axis"
Ex. 1 Express the following angles in NEWS.
a) N b) N
W E W E
40V1 70
S S V2
a) N
W E
V1 70
S
1 = 70 of
a) N
W E
V1 70
S
1 = 70 of S
The second letter is the axis the angle touches.
In this case, it touches the South axis.
a) N
W E
V1 70
S
1 = 70 W of S
The first letter is the direction the angle moves from the
reference axis. In this case, it moves towards the West.
a) N
W E
V1 70
S
1 = 70 W of S
We interpret this as "70 degrees West from the South axis"
b) N
W E
40 V2
S
2 = 40 of
b) N
W E
40 V2
S
2 = 40 of E
The second letter is the axis the angle touches.
In this case, it touches the East axis.
b) N
W E
40 V2
S
2 = 40 S of E
The first letter is the direction the angle moves from the
reference axis. In this case, it moves towards the South.
b) N
W E
40 V2
S
2 = 40 S of E
We interpret this as "40 degrees South from the East axis"
2. Angles in RCS y
-x x
V -y
Method:
The angle is measured in standard position
- starts from the positive x-axis
Counterclockwise angles are positive
Clockwise angles are negative
e.g. V y
60 -x x
-y
How would express this angle in RCS?
e.g. V y
60 start
-x x
-y
RCS angles always start at the positive x-axis.
e.g. V y
60 -x x
-y
If the angle is counterclockwise, then it is positive.
So, = 180 - 60 = 120
e.g. V y
60 -x x
-y
But if the angle is clockwise, then it is negative.
So, = -90 + -90 + -60 = -240
Ex. 2 Express the following angles in RCS.
a) y b) y
-x x -x x
40V1 70
-y -y V2
a) y
Start
-x x
V1 70
-y
RCS angles start from the positive x-axis.
a) y
-x x
V1 70 1
-y
If the angle is clockwise, then it is negative.
So, 1 = -90 + -70
= -160
a) y
1
-x x
V1 70
-y
If the angle is counterclockwise, then it is positive.
So, 1 = 90 + 90 + 20
= 200
b) y
start
-x x
40 V2
-y
RCS angles always start at the positive x-axis.
b) y
-x x
40 V2
-y
Clockwise angles are negative.
So, 2 = -40
b) y
2
-x x
40 V2
-y
Counterclockwise angles are positive.
So, 2 = -90 + -90 + -90 + -50
= -320
Practice Problems
Try these problems in the Physics 20 Workbook:
Unit 1 p. 4 #1
Reading Segment #2:
Adding 2-D Vectors (Tail-to-Tip)
To prepare for this section, please read:
Unit 2: p.3
B. ADDING 2-D VECTORS
A key skill in Physics 20 and 30 is to add 2-D vectors.
There are two methods that we use:
1. Tail-to-Tip
- this is especially good when the vectors
are perpendicular (at 90)
2. Components
- a more tedious, labour-intensive method,
but it works for all cases (including 3-D)
B1. Adding 2-D Vectors (Tail -to-Tip)
Method:
Place the tail of the second vector on the tip of the first
i.e. "place one right after the other"
The resultant (or sum) vector R is drawn from the origin
to the tip of the second vector
i.e. Resultant is the "start to finish" vector
Solve the resulting triangle
If the vectors are at right angles, then you can use
Soh Cah Toa and the Pythagorean formula
Note:
Notice that the resultant vector is a "start-to-finish" vector.
This is the same description for the overall displacement
vector ( d ).
Thus, displacement is a good example of adding 2-D vectors.
Ex. 3 From a hunting lodge, a hiker walks the following path:
1.8 km South
then, 1.10 km East
Find the overall displacement of the hiker.
Include both magnitude and direction in your answer.
Strategy:
Overall displacement is a start-to-finish vector,
just like the resultant vector.
So, we will add the vectors tail-to-tip to get out answer.
1.8 km
1.1 km
Place the tail of the second vector onto the tip of the
first vector.
That is, place one vector right after the other.
1.8 km R
1.1 km
The resultant (displacement) is the "start-to-finish" vector.
Place the angle at the base (origin) of the resultant vector.
1.8 km R
901.1 km
Since it is a right triangle, we can use Soh Cah Toa and
the Pythagorean formula to find R and .
Pythag:
c2 = a2 + b2 1.8 km R c
a
1.1 km
b
Remember, c is always the hypotenuse (the longest side).
c2 = a2 + b2 1.8 km R c
a
R2 = (1.8 km)2 + (1.1 km)2
1.1 km
R2 = 4.45 km2 b
R = 4.45 km2
= 2.1 km
Soh Cah Toa:
1.8 km R hyp
adj
1.1 km
opp
Remember:
- the hypotenuse is the longest side
- the opposite side is the side furthest from (i.e. the one not touching the angle )
- the adjacent side is the side right beside the angle
Toa:
tan = opp 1.8 km R hyp
adj adj
1.1 km
opp
Since we know the opposite and the adjacent sides,
we will use tangent.
Toa:
tan = opp 1.8 km R hyp
adj adj
tan = 1.1 1.1 km
1.8 opp
= tan -1 (0.6111)
= 31
N
W E
31 R = 2.1 km
S
The answer in NEWS:
d = R = 2.1 km at 31 E of S
(or 2.1 km at 59 S of E)
y
-x x
31 R = 2.1 km
The answer in RCS: -y
d = R = 2.1 km at 301
(or 2.1 km at -59)
Animation:
2-D Addition (Tail-to-Tip)
1. http://www.phy.ntnu.edu.tw/java/vector/vector.html
2. http://www.walter-fendt.de/ph11e/resultant.htm
The second animation deals with forces,
but it shows vector addition very well.
Ex. 4 A boat takes the following course:
3.60 km West
then, 5.20 km North
Find the overall displacement of the boat.
Include both magnitude and direction in your answer.
5.20 km
3.60 km
Place the tail of the second vector onto the tip of the
first vector.
That is, place one vector right after the other.
5.20 km R
3.60 km
The resultant displacement vector is the "start-to-finish" vector.
Be certain to show the angle at the base (start) of the
resultant vector.
Pythag:
c2 = a2 + b2 5.20 km R
R2 = (3.60 km)2 + (5.20 km)2 3.60 km
R = 40 km2
= 6.32 km
Soh Cah Toa:
tan = opp 5.20 km R
adj
tan = 5.20 3.60 km
3.60
= tan -1 (1.4444)
= 55.3
N
6.32 km
55.3 W E
S
The answer in NEWS:
d = R = 6.32 km at 55.3 N of W
(or 6.32 km at 34.7 W of N)
y
6.32 km
55.3
-x x
-y
The answer in RCS:
d = R = 6.32 km at 125
(or 6.32 km at -235)
Ex. 5 A person walks the following path:
3.0 km at 20 S of E
then, 5.0 km at 10 W of S
Sketch the resultant displacement vector.
No calculations required.
20
3.0 km
Sketch the first vector:
3.0 km at 20 South from the East axis
20
3.0 km
Next, place new axes at the tip of the vector.
20
3.0 km
10
5.0 km
Add the second vector onto the tip of the first vector.
5.0 km at 10 West of the South axis
20
3.0 km
R
10
5.0 km
The resultant is the "start to finish" vector.
Practice Problems
Try these problems in the Physics 20 Workbook:
Unit 2 p. 4 #2 - 7