Velocity
description
Transcript of Velocity
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Velocity• The speed and direction of an
object’s motion.–88 km / hr southwest
Image source: http://www.myteacherpages.com/
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VELOCITYSPEED IN A GIVEN
DIRECTION
Vd
t=
direction
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A bird flies south at 20 m/s.
• SPEED = 20 m/s• VELOCITY = 20 m/s south
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CONSTANT VELOCITY
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CHANGING VELOCITY
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COMBINING VELOCITIESCOMBINING VELOCITIES
How fast will this ball move?
What factors may affect its speed?
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COMBINING VELOCITIES
Rowing speed = 16 km/hr
River speed (downstream)
= 10 km/hr
Combined velocity: 26 km/hr
V1(Boat) = 16 km/hr
V2 (river) = 10 km/hr
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What is the velocity if you are moving upstream?
Combined velocity: (V1) 16 km/hr – (V2) 10 km/hr =
(CV) 6 km/hr
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Why is the idea of combining
velocities
important to launching
rockets?
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1. A runner moving eastward covers a distance of a 100 meters in 10 seconds. What is his velocity?
Given: D= 100 m T= 10s dir= East
1.Formula V= d/t with dir
2.Work V= 100m/10s East
3.Answer V= 10m/s East
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2. A tropical disturbance spotted east of the Philippines was moving at 60 km per hour at a Northwesterly direction and having maximum sustained winds of 150 km/h? What is the storm’s velocity?
Given: S= 60km/h T= 10s dir= NW
1.Formula V= d/t with dir
2.Work/Answer V= 60km/h NW
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3. Seve is walking to a friend’s house. He walks 500m for 10 minutes, then realizes he forgot something important to bring. He turns around, and hurries back to his house. The walk/jog back takes him 5 minutes.
Given: Total D= 500m + 500m = 1,000m Total T= 10min + 5 min= 15min x 60
sec/min = 900 sec
D= 500m
D= 500m
T= 10 min
T= 5 min
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3. Seve is walking to a friend’s house. He walks 500m for 10 minutes, then realizes he forgot something important to bring. He turns around, and hurries back to his house. The walk/jog back takes him 5 minutes.
a. What was his average speed in m/sec?
Given: Total D= 500m + 500m = 1,000m Total T= 10min + 5 min= 15min x 60
sec/min = 900 sec (15 min)
1.Formula Ave S = total D/total T
2.Work Ave S = 1,000m/900s
3.Answer Ave S = 1.1 m/s
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3. Seve is walking to a friend’s house. He walks 500m for 10 minutes, then realizes he forgot something important to bring. He turns around, and hurries back to his house. The walk/jog back takes him 5 minutes.
b. What was Seve’s velocity (in m/s) while walking to his friend’s house?
Given: D= 500m T= 10min x 60 sec/min= 600 sec dir = forward (to his friend’s house)
1.Formula V= d/t with dir2. Work V= 500m/600s to friend’s house
3. Answer V= 0.83 m/s to friend’s house
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4. Sean is running around the track oval. The oval is 800m long. He is running at a constant speed. It takes him 180 s to complete the track and get back to where he started.
a.What is Sean’s speed in m/s?
Given: d= 800 m t= 180 s running at constant speed
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Given: d= 800 m t= 180 s running at constant speed 1. Formula S= d/t 2. Work V= 800m/180s around oval3. Answer V= 4.44 m/s around oval
a.What is Sean’s speed in m/s?
If Sean is running at constant speed, is he also moving at constant velocity ?
No, he is always changing direction
(running around the oval).
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3. A group of fishermen were rowing downstream at a speed of 16 km/h.
a.How fast (combined velocity) is a group actually moving if the river’s speed (downstream) is 10 km/hr?
Given: V1= 16km/h V2= 10 km/h dir= downstream
1.Formula CV= V1 + V2
2. Work CV= 16 km/h + 10 km/h downstream
3. Answer CV= 26 km/h downstream
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3. A group of fishermen were rowing downstream at a speed of 16 km/h.
b. What will be their velocity if they
were moving upstream?
Given: V1= 16km/h V2= 10 km/h dir= downstream
1.Formula CV= V1 - V2
2. Work CV= 16 km/h - 10 km/h upstream
3. Answer CV= 6 km/h upstream