PHYSICS 11 TODAY: Speed and Velocity Review Problems/Worksheets.
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Transcript of PHYSICS 11 TODAY: Speed and Velocity Review Problems/Worksheets.
PHYSICS 11TODAY:
• Speed and Velocity Review• Problems/Worksheets
KINEMATICSThe Study of Motion
DISTANCEAs an object moves from one position to another, the length of the straight line
drawn from its initial to the final position is called:
POSITION• The shortest distance between the origin
and where the person is located• Vector quantity - has magnitude and
direction
DISPLACEMENTAs an object moves from one position to another, the length of the straight line
drawn from its initial to the final position is called:
DISPLACEMENT
Δ = a change in… = delta
DISPLACEMENT
Δd = a change between final and initial position
What was the dog’s DISTANCE travelled?
2
44
2
3
4
19 m
What was the dog’s DISPLACEMENT?
??
Calculating DISPLACEMENTA person is 2.0 m to the left of a viewpoint sign enjoying the view. She moves 4.5 m to the right
of the sign to get a better view. What is the person’s displacement?
6.5 m [right]
Calculating DISPLACEMENT
Practice Problems 2.1.1
Page: 39 – 40
Calculating DISPLACEMENT
503 m
a) What is the total distance the golf ball travelled while the golfer was playing the seventh
hole?
Calculating DISPLACEMENT
290 m, right
b) What is the Resultant Displacement of the Ball?
Speed
distance traveledaverage speed =
time of travel
equals to the object’s distance travelled over the time
interval It has NO DIRECTION,
only MAGNITUDE
Average Speed
distance traveledaverage speed =
time of travel
equals to the object’s total distance travelled over the
time interval It has NO DIRECTION,
only MAGNITUDE
total
Average Speedequals to the object’s total distance travelled over the
time interval It has NO DIRECTION,
only MAGNITUDE
Istantaneous Speedequals to the object’s speed at
the moment you are measuring the speed
Give me an example of when we are interested in measuring
instantaneous speed
Istantaneous Speedequals to the object’s speed at
the moment you are measuring the speed
DO YOU KNOW…What is a car’s average speed if the car makes a 100 km long trip from city A to city B if the first half of the trip is
driven at 50 km/h and the second half is driven at 100 km/h?
75 km/h 67 km/h
DO YOU KNOW…The average speed would be75 km/h if the car spent equaltime at 50 km/h and 100 km/h.
QUICK CHECK
Average speed is total distance over total time. Instantaneous speed is speed at a give point in time.
When an object is moving at a constant speed.
89 km/h
0.76 hr or 46 min
460 km
DO YOU KNOW…
What is the difference between:
speed average speed
instantaneous speed
DO YOU KNOW…
speed
average speed
instantaneous speed
Distance travelled over time
TOTAL Distance travelled over time
Speed of an object at a particular instant
•Constant speed•If the speed is not
changed over an extended period of
time
Uniform Speed???
Average VelocityThe total displacement of an object over the time interval during which
this displacement occurred is called:
Average Velocity
f iavg
f i
x xxv
t t t
average velocity = change in position
change in time =
displacement
time interval
SI Units: meters per second (m/s)
Average Velocity
average velocity = change in position
change in time =
displacement
time interval
SI Units: meters per second (m/s)
It has DIRECTION and MAGNITUDE
Think about it…A book is moved once around the edge of a tabletop with dimensions 1.75 m 2.25 m.
If the book ends up at its initial position, what is its
displacement?If it completes its
motion in 23 s, what is its
average velocity? What is its average
speed?
Think about it…A book is moved once around the edge of a tabletop with dimensions 1.75 m 2.25 m.
If the book ends up at its initial position, what is its
displacement?If it completes its
motion in 23 s, what is its
average velocity? What is its average
speed?
zero
zero
0.35 m/s
Think About it… Car A travels from Beijing to Shanghai at a speed 25 m/s. car B travels from Beijing to Xian at a speed 90
km/h
How do the velocities of the cars compare?
Velocities are not the same becausethey are travelling in different directions
You are on a skateboard and moving to the right covering 0.5 m each second for 10 seconds.
What is your velocity?
You are on a skateboard and moving to the right covering 0.5 m each second for 10 seconds.
What is your velocity?
0.5 m/s, right
Position – Time GraphsIf you know the object’s position at specific
times, you can determine its VELOCITY
Position vs. Time Graph If the VELOCITY is
constant, the graph of position vs. time is a straight line.
The slope indicates the VELOCITY
You are on a skateboard and moving to the right covering 0.5 m each second for 10 seconds.
What is your velocity?Doing this problem
GRAPHICALLY
You are on a skateboard and moving to the right covering 0.5 m each second for 10 seconds.
What is your velocity?
0.5 m/s, right
Slope = velocity
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:
Position vs. Time Graph
RUNNER 1
POSITION (km)
TIME (min)
0 0
5 10
10 21
15 29
20 40
RUNNER 2
POSITION (km)
TIME (min)
0 0
-5 8
-10 15
-15 25
-20 30RUNNER 3
POSITION (km)
TIME (min)
0 0
5 12
10 24
15 33
20 47
Describe the motion
represented by each graph
Graphing Velocity
0 5 10 15 20 25 30 35 40 45 50
-25
-20
-15
-10
-5
0
5
10
15
20
25
Positions of runners over time
Time (min)
Posit
ion
(k
m)
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:
Velocity = ?
RUNNER 1
POSITION (km)
TIME (min)
0 0
5 10
10 21
15 29
20 40
NEVER USE THE DATA POINTS TO CALCULATE THE SLOPE!!
Graphing Velocity
0 5 10 15 20 25 30 35 40 45 50
-25
-20
-15
-10
-5
0
5
10
15
20
25
Positions of runners over time
Time (min)
Posit
ion
(k
m)
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:
Velocity = slope
RUNNER 1
POSITION (km)
TIME (min)
0 0
5 10
10 21
15 29
20 40
𝟏𝟑−𝟑𝟐𝟓−𝟓
=𝟏𝟎𝟐𝟎
=𝟎 .𝟓𝟎𝒌𝒎 /𝒎𝒊𝒏
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:RUNNER 2
POSITION (km)
TIME (min)
0 0
-5 8
-10 15
-15 25
-20 30
Velocity = ?
Graphing Velocity
0 5 10 15 20 25 30 35 40 45 50
-25
-20
-15
-10
-5
0
5
10
15
20
25
Positions of runners over time
Time (min)
Posit
ion
(k
m)
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:
(−𝟕)−(−𝟒)𝟏𝟎−𝟓
=−𝟑𝟓
=−𝟎 .𝟔𝟎𝒌𝒎/𝒎𝒊𝒏
RUNNER 2
POSITION (km)
TIME (min)
0 0
-5 8
-10 15
-15 25
-20 30
Velocity = ?
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:
RUNNER 3
POSITION (km)
TIME (min)
0 0
5 12
10 24
15 33
20 47
Velocity = ?
Graphing Velocity
0 5 10 15 20 25 30 35 40 45 50
-25
-20
-15
-10
-5
0
5
10
15
20
25
Positions of runners over time
Time (min)
Posit
ion
(k
m)
Graphing VelocityThe positions of three runners were recorded at specific
times. Here are their results:
𝟏𝟓−𝟑𝟑𝟓−𝟖
=𝟏𝟐𝟐𝟕
=𝟎 .𝟒𝟒𝒌𝒎/𝒎𝒊𝒏
RUNNER 3
POSITION (km)
TIME (min)
0 0
5 12
10 24
15 33
20 47
Velocity = ?
HOMEWORK
Textbook:
pg. 44 – 47 #1, #3, #5, #7
Instantaneous VelocityIs a velocity of an object at some instant
(moment) at a specific point in the object’s path
Instantaneous VelocityEach moment a subject moves through
larger and larger displacements
If the VELOCITY is NOT constant, the
graph of position vs. time is a curve.
How can we find out the VELOCITY at
some exact time (3 sec)?
Instantaneous VelocityConstruct a STRAIGHT LINE which is TANGENT to the curve at that time
Instantaneous VelocityThe slope of that STRAIGHT LINE =
INSTANTANEOUS VELOCITY