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AP Physics B 1.3 Newtonian Mechanics
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AP® Physics B: Newtonian Mechanics Drill 1, Problem 3. With what acceleration does lunch arrive?

AP Physics C 1.1 Newtonian Mechanics
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AP Physics B 1.1 Newtonian Mechanics
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Newtonian Mechanics Drill 1, Question 1. What is the magnitude of the constant acceleration due to the mud?

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AP Physics B 1.1 Newtonian Mechanics 193 Views


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Newtonian Mechanics Drill 1, Question 1. What is the magnitude of the constant acceleration due to the mud?

Language:
English Language

Transcript

00:04

Gettin' shmoopy with it...

00:06

You are carefully carrying your father's 15 kilogram bowling ball across a muddy field when you drop it.

00:11

Heaven only knows where you were going with it. If it falls 1 meter, and the ball sinks into

00:16

the mud to a depth of 10 centimeters, what is the magnitude of the constant acceleration

00:22

due to the mud? And here are the possible answers...

00:28

First of all, that's a heavy bowling ball, and you're lucky it didn't fall on your feet.

00:32

Now, onto physics. This problem takes place in two parts.

00:36

First, you drop the ball, and it falls to the mud below.

00:38

Then, once it lands, the mud pushes back on the bowling ball, and stops it.

00:43

Let's start by looking at the falling portion of this problem.

00:47

When the bowling ball first begins to drop, it's in free-fall, and it follows all of

00:51

the rules associated with free-fall. Like... waving its arms over its head and screaming.

00:58

Remember that in kinematics, we have a few key terms:

01:01

Displacement is the distance between an object and its original location.

01:07

Velocity is the speed of the object in a particular direction.

01:11

We find velocity by dividing the

01:12

object's displacement by the time it took for it to move that far.

01:17

Finally, acceleration is how fast the object is changing its velocity.

01:24

In this problem, initial velocity is 0, starting displacement is 0 meters, final displacement

01:30

is 1 meter, acceleration is 10 meters per second squared, and the time is... irrelevant.

01:37

For this problem, anyway. The final velocity, which is left over, is

01:41

what we're trying to find. To do that, we call upon the power of our

01:44

kinematics equations. In particular, v sub f squared equals nought squared plus 2a times

01:52

the quantity x sub f minus x sub zero. Since v nought and X nought = 0 we can make

02:00

those terms go away, and only worry about v sub f, A, and x sub f.

02:05

We can plug in the values we know for a and x, or we could substitute in variables.

02:10

If we went the latter route, we would find that sub f squared equals 2gh, where g is

02:16

equal to the acceleration due to gravity or 10 meters per second squared, and h is the

02:21

height the bowling ball will fall.

02:24

Taking the square root of both sides,

02:25

we get that v sub f equals the square root of 2ax sub f.

02:30

Phew, that was exhausting, and we're only half done.

02:33

Fight through the pain.

02:36

Once the ball finishes dropping, it begins

02:38

slowing down because of the mud. The final velocity will be 0, because the

02:43

ball has stopped moving. Again, we assume that the beginning of the ball's movement

02:46

is displacement = 0, and the final is .1 meters, because the ball sinks in .1 meters.

02:56

Time is again, irrelevant, but we're missing both acceleration and initial velocity.

03:01

But wait! In the first part, we found out what the initial velocity was. It's √2gh.

03:09

Great. Now, just like in the first part, we take the equation v sub f squared = v nought

03:14

squared + 2a times the quantity x sub f minus x nought... and plug in what we know.

03:23

If we left out the actual values of g and h, now is the time to plug them in.

03:27

Now's the hard part. We have to do Algebra. Wince.

03:31

First we do all of the multiplication we can, and get 20 plus .2a is equal to 0.

03:37

Next, we move the 20 over to the other side of the equation by subtracting,

03:42

and finally, divide by .2.

03:45

Our answer is negative, and none of the answer

03:47

choices are negative. Did we make a mistake? Actually, we didn't.

03:51

In physics, negative signs usually indicate direction. For example, if moving to the right

03:56

was positive displacement, then a negative value would be moving to the left.

04:00

In this case, the negative values just mean that the acceleration is opposite our velocity,

04:05

which was downwards. If we think of up as positive, then our answer

04:09

would be 100 meters per second squared... ...or answer D.

04:13

Of course, none of this really matters... since your dad's gonna kill you when he

04:16

finds out you took his nice bowling ball.

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