1. Describing Motion Motion Speed & Velocity Acceleration
Motion & Forces Pgs 63-75
Describing Motion
Motion
Speed & Velocity
Acceleration

2. Newton’s First Law Newton’s First Law of Motion
An object at rest will remain at rest and an object in motion will continue moving at a constant velocity unless acted upon by a net force.
motion
constant velocity
net force

3. A. Motion Problem: Is your desk moving? We need a reference point...
nonmoving point from which motion is measured

4. A. Motion Motion Change in position in relation to a reference point.

5. A. Motion
Problem:
You are a passenger in a car stopped at a stop sign. Out of the corner of your eye, you notice a tree on the side of the road begin to move forward.
You have mistakenly set yourself as the reference point.

6. v d t B. Speed & Velocity Speed rate of motion
distance traveled per unit time

7. B. Speed & Velocity Instantaneous Speed speed at a given instant
Average Speed

8. B. Speed & Velocity Problem:
A storm is 10 km away and is moving at a speed of 60 km/h. Should you be worried?
It depends on the storm’s direction!

9. B. Speed & Velocity Velocity speed in a given direction
can change even when the speed is constant!

10. t a C. Acceleration Acceleration the rate of change of velocity
vf - vi t
Acceleration
the rate of change of velocity
change in speed or direction
a: acceleration
vf: final velocity
vi: initial velocity
t: time

11. C. Acceleration Positive acceleration “speeding up”
Negative acceleration
“slowing down”

12. t d v D. Calculations d = 100 m v = d ÷ t t = 20 s
Your neighbor skates at a speed of 4 m/s. You can skate 100 m in 20 s. Who skates faster?
GIVEN:
d = 100 m
t = 20 s
v = ?
WORK:
v = d ÷ t
v = (100 m) ÷ (20 s)
v = 5 m/s
You skate faster! v d t

13. E. Graphing Motion slope = speed steeper slope = straight line =*
07/16/96
E. Graphing Motion
Distance-Time Graph A B
slope =
steeper slope =
straight line =
flat line =
speed
faster speed
constant speed
no motion *

14. E. Graphing Motion Who started out faster? A (steeper slope)
Distance-Time Graph A B
Who started out faster?
A (steeper slope)
Who had a constant speed? A
Describe B from min.
B stopped moving
Find their average speeds.
A = (2400m) ÷ (30min) A = 80 m/min
B = (1200m) ÷ (30min) B = 40 m/min

15. E. Graphing Motion
Distance-Time Graph
Acceleration is indicated by a curve on a Distance-Time graph.
Changing slope = changing velocity

16. E. Graphing Motion acceleration slope = +ve = speeds up
Speed-Time Graph
acceleration
+ve = speeds up
-ve = slows down
slope =
straight line =
flat line =
constant accel.
no accel. (constant velocity)

17. E. Graphing Motion Specify the time period when the object was...
Speed-Time Graph
Specify the time period when the object was...
slowing down
5 to 10 seconds
speeding up
0 to 3 seconds
moving at a constant speed
3 to 5 seconds
not moving
0 & 10 seconds