projectile motion youtube - baxter noooooooooo. projectile motion 9.1projectile motion (ahl)...
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Projectile Motion
YouTube - Baxter NOOOOOOOOOO
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Projectile Motion
9.1 Projectile motion (AHL) 9.1.1 State the independence of the vertical and the horizontal
components of velocity for a projectile in a uniform field.
9.1.2 Describe and sketch the trajectory of projectile motion as parabolic in the absence of air resistance.
9.1.3 Describe qualitatively the effect of air resistance on the trajectory of a projectile.
9.1.4 Solve problems on projectile motion.
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Amazing facts!
If a gun is fired horizontally, and at the same time a bullet is dropped from the same height. They both hit the ground at the same time.
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Amazing facts!
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Amazing facts!
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Amazing facts!
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Amazing facts!
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Amazing facts!
Why?
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Vertical and horizontal
Their vertical motion can be considered separate from their horizontal motion.
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Vertical and horizontal independent of each other
Vertically, they both have zero initial velocity and accelerate downwards at 9.8 m.s-2. The time to fall the same vertical distance is therefore the same.
Horizontally velocity remains constant
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Projectiles (Half Trajectory)
An object projected sideways through the air will follow a curved trajectory.
horizontal motion (steady speed)
vertical motion
The horizontal and vertical motions should be treated separately.
Time is the only quantity common to both.
accelerates downwards at -9.8 ms-
2
tD
V HH
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At any point in its trajectory, the velocity of a projectile has two components.
• one vertical, VV
• the other horizontal, VH
The resultant velocity is found drawing a vector diagram and add the vectors together, TIP to TAIL.
Vector Diagram
horizontal velocity
vertical velocity
resultant/actual
velocity
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vh
vv
This is an example of a ‘half-trajectory.’
GREEN – actual motion
RED – vertical motion
BLUE – horizontal motion
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Watch that dog!
Imagine a dog being kicked horizontally off the top of a cliff (with an initial velocity vh).
vh
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Parabola
Assuming that there is negligible air resistance, he falls in the path of a parabola.
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Parabola
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Parabola
Why?
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Why a parabola?
We can consider his motion to be the sum of his horizontal motion and vertical motion.
We can treat these separately
vh
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Horizontal motion
Assuming no air resistance, there are no horizontal forces.
This means horizontally
the dog moves with
constant speed vh
vh
Horizontal distance travelled (x) = vht
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Vertical motion
Assuming no air resistance, there is constant force downwards (=mg).
This means vertically the
dog moves with constant
acceleration g = 9.8 m.s-2
Vertical distance travelled (y) = uvt + ½gt2
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Parabolic motion
Since y = ½gt2 (if u = 0) and x = vht,
y = ½gx2/vh2 which you may (!) recognise as
the formula of a parabola.
Another piece of ultra cool physics!
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30 ms-1
Example
A ball is kicked horizontally off an embankment, with a velocity of 30 ms-1.
It lands 24 m from the base of the embankment.
(a) Calculate how long the ball was in flight.
24 m
tD
V HH
t24
30
3024
t
s 0.8t common to
horizontal and vertical motions
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Horizontal Vertical
-1ms 30u
m 24s
-2ms -9.8a
(b) Calculate the horizontal velocity just before hitting the ground.
s 0.8t
s 0.8t
-2ms 0a
-1ms 0u
travels horizontally at steady speed
– no acceleration horizontally
not initially falling down, so speed of
zero in vertical direction
acted upon by gravity
Horizontal
atuv
0.8030 -1ms 30v
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(c) Calculate the vertical velocity just before hitting the ground.
Vertical
atuv 0.89.8-0
-1ms -7.84v
(d) How high is the embankment?
Vertical
-2ms -9.8as 0.8t
-1ms 0u-1ms -7.84v
means 7.84 ms-1 downwards
2at21
uts
20.89.8-21
0.80
m 3.14s
so height of the embankment is 3.14 m
means ball fell through distance of
3.14 m
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(e) Calculate the resultant velocity of the ball, just before hitting the ground.
30 ms-
1
-7.8 ms-1
velocity
θ
Size
By Pythagoras:
222 cba
222 7.84-30velocity resultant 61.5900
961.5velocity resultant -1ms 31
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Direction
hyp
adjθ cos
3130
θ cos
0.97cosθ 1
14.6θ
horizon below 14.6 of angle at ms 31velocity resultant -1
30 ms-
1
-7.8 ms-1
velocity
θ
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Q1. A ball is kicked off a cliff with a horizontal speed of 16 ms-
1.
The ball hits the ground 2.2 s later.
(a) Calculate the height of the cliff.
(b) Calculate the distance between the foot of the cliff and where the ball lands.
(c) Calculate the vertical component of the balls velocity just before it hits the ground.
(d) Calculate the balls velocity as it hits the ground.
23.7 m
35.2 m
21.6 ms-1
26.9 ms-1 at angle of 53.5° below
horizon
You may want to draw a diagram to help you get started !!!
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Q2. A ball is kicked off a cliff with a horizontal speed of 22 ms-1. the ball hits the ground 1.5 s later.
(a) Calculate the height of the cliff.
(b) Calculate the horizontal distance from the foot of the cliff, to where the ball lands.
(c) Calculate the vertical component of the balls velocity as it hits the ground.
(d) Calculate the balls actual velocity as it hits the ground.
11 m
14.7 ms-1
26.5 ms-1 at angle of 34° below
horizon
33 m
You may want to draw a diagram to help you get started !!!
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Example
A dog is kicked off the top of a cliff with an initial horizontal velocity of 5 m.s-1. If the cliff is 30 m high, how far from the cliff bottom will the dog hit the ground?
5 m.s-1
30 m
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Example
Looking at vertical motion first:
u = 0, a = 9.8 m.s-2, s = 30 m, t = ?
s = ut + ½at2
30 = ½ x 9.8 x t2
t2 = 6.1
t = 2.47 s
The dog hits the ground after 2.47 seconds (yes!)
5 m.s-1
30 m
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Example
Now look at horizontal motion:
Constant speed (horizontally) = 5 m.s-1
Time of fall = 2.47 seconds
Horizontal distance travelled = speed x time
Horizontal distance travelled = 5 x 2.47
= 12.4
m The dog hits the ground 12.4 metres from the base of the cliff
5 m.s-1
30 m
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Parabola
12.4 metres
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What is the dog’s speed as he hits the ground?
To answer this it is easier to think in terms of the dog’s total energy (kinetic and potential)
5 m.s-1
30 m
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What is the dog’s speed as he hits the ground?
Total energy at top = ½mv2 + mgh
Total energy = ½m(5)2 + mx9.8x30
Total energy = 12.5m + 294m = 306.5m
5 m.s-1
30 m
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What is the dog’s speed as he hits the ground?
At the bottom, all the potential energy has been converted to kinetic energy. All the dog’s energy is now kinetic.
V = ?
energy = ½mv2
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What is the dog’s speed as he hits the ground?
energy at top = energy at bottom306.5m = ½mv2
306.5 = ½v2
613 = v2
V = 24.8 m.s-1
(Note that this is the dog’s
speed as it hits the ground,
not its velocity.
v = 24.8 m.s-1
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Projectiles (Full Trajectory)
A projectile does not need to be an object falling, but could be an object fired at angle to the horizontal.
The subsequent motion would bemax height
θ
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If air resistance is ignored, the trajectory has an axis of symmetry about the mid point (maximum height).
So the time taken to reach the maximum height is the same as the time taken to fall back to the ground.
Various calculations can be made, but firstly, the initial velocity must be split into its horizontal and vertical components.
Horizontal
a = 0 ms-2
Vertical
a = -9.8 ms-2
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Starting with non-horizontal motion
Woof! (help)
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Starting with non-horizontal motion
30°
25 m.s-1
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Starting with non-horizontal motion
1. Split the initial velocity into vertical and horizontal components
vh = 25cos30°
vv = 25sin30°
30°
25 m.s-1
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Starting with non-horizontal motion
2. Looking at the vertical motion, when the dog hits the floor, displacement = 0
Initial vertical velocity = vv = 25sin30°
Acceleration = - 9.8 m.s-2
30°
25 m.s-1
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Starting with non-horizontal motion
3. Using s = ut + ½at2
0 = 25sin30°t + ½(-9.8)t2
0 = 12.5t - 4.75t2
0 = 12.5 – 4.75t
4.75t = 12.5
t = 12.5/4.75 = 2.63 s
30°
25 m.s-1
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Starting with non-horizontal motion
4. Looking at horizontal motion
Ball in flight for t = 2.63 s travelling with constant horizontal speed of
vh = 25cos30° = 21.7 m.s-1.
Distance travelled = vht = 21.7x2.63 = 57.1m
30° 57.1m
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Starting with non-horizontal motion
5. Finding maximum height? Vertically;
v = 0, u = 25sin30°, t = 2.63/2
s = (u + v)t = 12.5x1.315 = 8.2m
2 2
30°
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Starting with non-horizontal motion
6. Don’t forget some problems can also be answered using energy.
30°
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Starting with non-horizontal motion
6. Don’t forget some problems can also be answered using energy.
As dog is fired total energy = ½m(25)2
30°
25 m.s-1
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Starting with non-horizontal motion
6. At the highest point,
total energy = KE + GPE =½m(25cos30°)2 + mgh
As dog is fired total energy = ½m(25)2
30°
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Starting with non-horizontal motion
6. So ½m(25cos30°)2 + mgh = ½m(25)2
½(21.65)2 + 9.8h = ½(25)2
234.4 + 9.8h = 312.5
9.8h = 78.1
h = 8.0 m
30°