3. Position & Motion
An object’s position is defined by a reference
point and a reference direction.
A reference point is something used for
comparison to determine if an object is in
motion.
An object is in motion If the object changes
position relative to a reference point.
9. Average speed Equation
In most real-world situations, speed is not constant but
changes, requiring several calculations.
Average speed = Total distance/Total time.
Average S = total d/total t
Sa = Dt /Tt
Dt = 32km + 13km = 45km
T t = 2hr + 1hr = 3hr
Sa = 45km/3hr, = 15km/hr
16. Vectors
A Vector is a quantity that has both a
magnitude and a direction. Example: 45
mph Northwest.
17. Velocity
Velocity and speed are different!
Velocity is speed in a given direction.
IMPORTANT; Changes in velocity may be
due to change in speed, change in direction, or
both!!
18. Velocity equation
Velocity is change in speed or direction so...
Initial speed minus final speed...
V = S1 - S 2 = meters/sec = change in m/s.
If S1 - S2 is positive its speeding up.
If S1 - S2 is negative its slowing down.
A velocity always has a direction with it:
“3m/s in a N-W direction”
20. Acceleration...
Change in speed or direction is called acceleration.
Increase in speed is acceleration, decrease in speed is
deceleration.
***An object can still be accelerating even if its speed
is constant if it changes direction. For example the
seats in a Ferris wheel are accelerating even though
the speed may be constant because they are moving in
22. Acceleration equation...
So... acceleration is change in velocity per unit of
time. Here’s the formula...
A = V1 - V 2 = meters/sec = m/s 2
T 1 - T2 sec
V1 is the initial velocity and V2 is the final.
and...
23. Acceleration equation...
T1 - T2 is the total elapsed time...
T1 - T2 is always positive (can’t go back in time
if V1 - V2 is positive the object is accelerating
if V1 - V2 is negative the object is decelerating.
(note this is not how the book presents it...
24. Graphing Acceleration
If there is a curved line on a d-t graph the object
is either accelerating or decelerating.
Smile = accelerating
Frown = decelerating
25. This is acceleration on a d-t graph
Smile up = accelerating, smile down
decelerating.
30. Speed vs. time graph...
On an s-t graph, acceleration is always present
when there is a sloped line (the graph below shows
constant acceleration not deceleration).
31. Acceleration is also...
Related to mass and force (Einstein)(Ch. 10)
Force equals mass X acceleration:
F = (m)X(a)
So... Acceleration equals Force/Mass:
A = (f)/(m)