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Vectors
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Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Jan 03, 2016

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Page 1: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Vectors

Page 2: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

There are two kinds of quantities…

Scalars are quantities that have magnitude only, such as position speed time mass

Vectors are quantities that have both magnitude and direction, such as displacement velocity acceleration

Page 3: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Notating vectors

This is how you notate a vector…

This is how you draw a vector…

R R

R headtail

Page 4: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Direction of Vectors

Vector direction is the direction of the arrow, given by an angle.

This vector has an angle that is between 0o and 90o.

Ax

Page 5: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Vector angle ranges

x

y

Quadrant I0 < < 90o

Quadrant II90o < < 180o

Quadrant III180o < < 270o

Quadrant IV

270o < < 360o

Page 6: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Equal Vectors

Equal vectors have the same length and direction, and represent the same quantity (such as force or velocity).

Draw several equal vectors.

Page 7: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Inverse Vectors

Inverse vectors have the same length, but opposite direction.

Draw a set of inverse vectors.

A

-A

Page 8: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Sample problem A surveyor stands on a riverbank directly across the river from a

tree on the opposite bank. She then walks 100 m downstream, and determines that the angle from her new position to the tree on the opposite bank is 50o. How wide is the river, and how far is she from the tree in her new location?

Page 9: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Sample problem You are standing at the very top of a tower and notice that in order

to see a manhole cover on the ground 50 meters from the base of the tower, you must look down at an angle 75o below the horizontal. If you are 1.80 m tall, how high is the tower?

Page 10: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

You are driving up a long inclined road. After 1.5 miles you notice that signs along the roadside indicate that your elevation has increased by 520 feet.

a) What is the angle of the road above the horizontal?

Page 11: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

You are driving up a long inclined road. After 1.5 miles you notice that signs along the roadside indicate that your elevation has increased by 520 feet.

b) How far do you have to drive to gain an additional 150 feet of elevation?

Page 12: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

Find the x- and y-components of the following vectors

a) R = 175 meters @ 95o

Page 13: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

Find the x- and y-components of the following vectors

b) v = 25 m/s @ -78o

Page 14: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

Find the x- and y-components of the following vectors

c) a = 2.23 m/s2 @ 150o

Page 15: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Graphical Addition of Vectors

Page 16: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Graphical Addition of Vectors

1) Add vectors A and B graphically by drawing them together in a head to tail arrangement.

2) Draw vector A first, and then draw vector B such that its tail is on the head of vector A.

3) Then draw the sum, or resultant vector, by drawing a vector from the tail of A to the head of B.

4) Measure the magnitude and direction of the resultant vector.

Page 17: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

A

B

RA + B = R

Practice Graphical Addition

R is called the resultant vector!

B

Page 18: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

The Resultant and the Equilibrant

The sum of two or more vectors is called the resultant vector.

The resultant vector can replace the vectors from which it is derived.

The resultant is completely canceled out by adding it to its inverse, which is called the equilibrant.

Page 19: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

A

B

R A + B = R

The Equilibrant Vector

The vector -R is called the equilibrant.If you add R and -R you get a null (or zero) vector.

-R

Page 20: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Graphical Subtraction of Vectors

1) Subtract vectors A and B graphically by adding vector A with the inverse of vector B (-B).

2) First draw vector A, then draw -B such that its tail is on the head of vector A.

3) The difference is the vector drawn from the tail of vector A to the head of -B.

Page 21: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

A

B

A - B = C

Practice Graphical Subtraction

-B

C

Page 22: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

Vector A points in the +x direction and has a magnitude of 75 m. Vector B has a magnitude of 30 m and has a direction of 30o relative to the x axis. Vector C has a magnitude of 50 m and points in a direction of -60o relative to the x axis.

a) Find A + Bb) Find A + B + Cc) Find A – B.

Page 23: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem In a daily prowl through the neighborhood, a cat makes a

displacement of 120 m due north, followed by a displacement of 72 m due west. Find the magnitude and displacement required if the cat is to return home.

Page 24: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem If the cat in the previous problem takes 45 minutes to complete

the first displacement and 17 minutes to complete the second displacement, what is the magnitude and direction of its average velocity during this 62-minute period of time?

Page 25: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Relative Motion

Page 26: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Relative Motion

Relative motion problems are difficult to do unless one applies vector addition concepts.

Define a vector for a swimmer’s velocity relative to the water, and another vector for the velocity of the water relative to the ground. Adding those two vectors will give you the velocity of the swimmer relative to the ground.

Page 27: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Relative Motion

Vs

Vw

Vt = Vs + Vw

Vw

Page 28: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Relative Motion

Vs

Vw

Vt = Vs + Vw

Vw

Page 29: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Relative Motion

Vs

Vw

Vt = Vs + Vw Vw

Page 30: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

You are paddling a canoe in a river that is flowing at 4.0 mph east. You are capable of paddling at 5.0 mph.

a) If you paddle east, what is your velocity relative to the shore?

b) If you paddle west, what is your velocity relative to the shore?

c) You want to paddle straight across the river, from the south to the north.At what angle to you aim your boat relative to the shore? Assume east is 0o.

Page 31: Vectors. There are two kinds of quantities… Scalars are quantities that have magnitude only, such as position speed time mass Vectors are quantities that.

Practice Problem

You are flying a plane with an airspeed of 400 mph. If you are flying in a region with a 80 mph west wind, what must your heading be to fly due north?