Difference between revisions of "Skill Set 03.2"

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(1. A ball rolls off the edge of a cliff. The instant it leaves the edge, it has an initial horizontal velocity of 17.3 m/s, and it strikes the ground after 1.56 seconds. How high is the cliff?)
(4. Question)
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===4. Question===
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===4. A ball is launched at 43.2 m/s at an angle of 25.2<sup>o</sup> above horizontal on a level field.===
 
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<blockquote>
Solution goes here
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The first thing to do is to split the velocity into x and y components. To do this, we do the following:<br><br>
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43.2cos(25.2) = 39.089 m/s<br>
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43.2sin(25.2) = 18.394 m/s<br><br>
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These are our initial velocities, but since horizontal acceleration is 0, our final horizontal velocity is the same as our initial. And for the y component, since the ball begins and ends on the same level ground, the final velocity will be the negative of the initial.<br><br><br>
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For problem 4, our suvat table will now look like this:<br><br>
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{| border="1" cellpadding="10"
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|+
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!width="150"|H
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!width="150"|V
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|-
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|
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s = <br>
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u = 39.089 m/s<br>
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v = 39.089 m/s<br>
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a = 0<br>
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t = <br>
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|
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s = 0<br>
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u = 18.394 m/s<br>
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v = -18.394 m/s<br>
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a = -9.81 m/s/s<br>
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t = <br>
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|-
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|}
 
</blockquote>
 
</blockquote>
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Since we need to find horizontal displacement (s), from s = ut + 1/2at<sup>2</sup>, we will first need to find t.<br><br>
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It is a simple matter to use v = u + at (if you remember it) to find time in the vertical direction:<br>
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-18.394 = 18.394 + (-9.81 m/s<sup>2</sup>)t<br>
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t = 3.7500 s<br><br>
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Now using s = ut + 1/2at<sup>2</sup> with a = 0,<br><br>
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s = (39.089 m/s)(3.75 s)<br>
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s = 146.581 = '''147 m'''
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[[#top | Table of Contents]]
 
[[#top | Table of Contents]]
 
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===5. Question===
 
===5. Question===
 
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Revision as of 11:47, 12 February 2009

Main Page > IB Physics Skill Sets > Skill Set 03.2

1. A ball rolls off the edge of a cliff. The instant it leaves the edge, it has an initial horizontal velocity of 17.3 m/s, and it strikes the ground after 1.56 seconds. How high is the cliff?

To start off, our suvat table for problems 1-3 will originally look like this:

H V

s =
u = 17.3 m/s
v = 17.3 m/s
a = 0
t = 1.56 s

s =
u = 0 (cliff)
v =
a = -9.81 m/s/s
t = 1.56 s

Using s = ut + 1/2at2:

s = 0 + 1/2(9.81)(1.56)2 = 11.936 m

Table of Contents


2. A ball rolls off the edge of a cliff. The instant it leaves the edge, it has an initial horizontal velocity of 17.3 m/s, and it strikes the ground after 1.56 seconds. How far from the base of the cliff does the ball land?

We will again use s = ut + 1/2at2, but since horizontal acceleration = 0, the equation becomes s = ut.

s = ut = (17.3)(1.56) = 26.988 m

Table of Contents


3. A ball rolls off the edge of a cliff. The instant it leaves the edge, it has an initial horizontal velocity of 17.3 m/s, and it strikes the ground after 1.56 seconds. What is the speed of impact?

So in the vertical direction you can use v = u + at to solve for the final vertical velocity.

v = 0 + (-9.81 m/s2)(1.56 s)
v = -15.3036 m/s

Since the acceleration in the horizontal direction is 0, the initial velocity of 17.3 m/s is also the final velocity. With both our horizontal and vertical final velocities, we can find the magnitude of the impact by using the Pythagorean Theorem.

17.32 + -15.32 = c2
c = 23.1 m/s

Table of Contents


4. A ball is launched at 43.2 m/s at an angle of 25.2o above horizontal on a level field.

The first thing to do is to split the velocity into x and y components. To do this, we do the following:

43.2cos(25.2) = 39.089 m/s
43.2sin(25.2) = 18.394 m/s

These are our initial velocities, but since horizontal acceleration is 0, our final horizontal velocity is the same as our initial. And for the y component, since the ball begins and ends on the same level ground, the final velocity will be the negative of the initial.



For problem 4, our suvat table will now look like this:

H V

s =
u = 39.089 m/s
v = 39.089 m/s
a = 0
t =

s = 0
u = 18.394 m/s
v = -18.394 m/s
a = -9.81 m/s/s
t =

Since we need to find horizontal displacement (s), from s = ut + 1/2at2, we will first need to find t.

It is a simple matter to use v = u + at (if you remember it) to find time in the vertical direction:
-18.394 = 18.394 + (-9.81 m/s2)t
t = 3.7500 s

Now using s = ut + 1/2at2 with a = 0,

s = (39.089 m/s)(3.75 s)
s = 146.581 = 147 m

Table of Contents


5. Question

Solution goes here

Table of Contents