Post on 12-Jan-2016
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Vectors
More math concepts
Objectives
• Distinguish between vector and scalar quantities.
• Carry out addition and scalar multiplication of vectors.
• Understand forces as vectors.
What’s the Point?
• How can we specify quantities that depend on direction?
• How do forces combine?
Vectors and Scalars
• Vector: quantity needing a direction to fully specify (direction + magnitude)
• Scalar: directionless quantity
Arrows for Vectors
direction: obvious
magnitude: length
location is irrelevant
these are identical
Represent as Components
Components: projections in (x, y) directions
BA
A = (4, 3)
B = (0, –2)
xy
Magnitude from Components
Components: lengths of sides of right triangle
Magnitude: length of hypotenuse
A
A = (4, 3)
||A ||= A = 42 + 32
Physics Vectors and Scalars
• Position, displacement, velocity, acceleration, and force are vector quantities.
• Mass and time are scalar quantities.
• (Yes, there are many others)
Combine Displacement Vectors
(CR to HA) + (HA to Union) = (CR to Union)
Add Vectors
A
C B
A + B = C
Head-to-tail (not in your book)
A
B
How to Add Vectors
• Place following vector’s tail at preceding vector’s head
• Resultant starts where the first vector starts and ends where the last vector ends
• Add any number of vectors, one after another
Sum by Components
Vector sum: Add (x, y) components individually
C
BA
A = (4, 3)
B = (0, –2)
C = A + B = (4+0, 3–2) = (4, 1)
Poll Question
Which vector is the sum of vectors A and B?
A
DC
B
AB
Group Work
1. Draw two vectors A and B. Graphically find:
• A + B
Poll Question
Is vector addition commutative?
A. Yes.
B. No.
Vector Addition is Commutative
A + B = CA
BB + A = C
A + B = B + A
Add Vectors
Book uses parallelogram rule
emphasizes commutativity
Respect the Units
• For a vector sum to be meaningful, the vectors you add must have the same units!
5 s + 10 s = 15 s
5 kg + 10 m = 15 ?
• Or, algebra in general:5 a + 10 a = 15 a
5 b + 10 c = 15 ?
good!
Bad!
good!
Bad!
• Just as with scalars:
Subtract Vectors
A
B
Add the negative of the vector being subtracted.
–B
A – B = A + (–B) = D
D
–BA
(Negative = same magnitude, opposite direction: what you must add to get zero)
Group Work
2. Make up three vectors A, B, and C. Graphically show:
• A – B• A + B + C• C + A + B
Multiplication by a Scalar
• Product of (scalar)(vector) is a vector
• The scalar multiplies the magnitude of the vector; direction does not change
• Direction reverses if scalar is negative
A 2 A 1/2 A–2 A
Scalar Multiplication Example
Velocity (a vector) time (a scalar)
v t = r
Result is displacement (a vector).
The vectors are in the same direction, but have different units!
Net Force
• Forces on an object add together.
• Forces can oppose each other.• Net force is the vector sum of all forces
acting on a body.• The net force on a body at rest is zero.
Poll: Hammock Example
A hammock slung between trees 8 m apart sags 1 m when a person lies in it.
The net force acting on the person is
A. Equal to the weight of the person.
B. Equal to the tension in one cable.
C. Zero.
D. There is not enough information to answer.
8 m
1 m
weight
FF
Working with Commonly-Encountered Forces
Tension
Tension Forces
• In cables, threads, chains, etc.
• Direction: along the cable, inward
Poll: Hammock Tension
A hammock slung between trees 8 m apart sags 1 m when a person lies in it.
The tension in a cable is
A. Equal to the weight of the person.
B. About half the weight of the person.
C. Zero.
D. Much more than the weight of the person.
E. There is not enough information to answer.
8 m
1 m
weight
FF
Hammock Forces
weight
tensiontension
forces add to zero
Tension exceeds weight for a shallow angle!
Application: Lumbar Forces
Spinal curvature
standing sitting
Application: Lumbar Forces
Reaching with a load
standing sitting
weight weight
Application: Lumbar Forces
Standing
torque
supporttens
ion
Application: Lumbar Forces
Sitting
torque
supporttens
ion
huge!
Reading for Next Time
• Force, mass, and acceleration: how and why motion changes
• Keep in mind how this applies in everyday experience.