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AP Physics B: Newtonian Mechanics Section Drill 2, problem 1. What is the acceleration due to gravity for objects dropped near the surface of Europa?
AP® Physics B: Newtonian Mechanics Drill 1, Problem 3. With what acceleration does lunch arrive?
AP Physics C: Newtonian Mechanics Drill 1, Problem 1. Which of Newton's equations of motion would have to be modified to account for the airplane's...
AP Physics C 1.1 Newtonian Mechanics 199 Views
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AP Physics C: Newtonian Mechanics Drill 1, Problem 1. Which of Newton's equations of motion would have to be modified to account for the airplane's uniform speed of 220 meters per second?
Transcript
- 00:03
Here's your shmoop du jour, brought to you by Airplanes.
- 00:07
In the event of an emergency, your Physics textbook MAY be used as a flotation device.
- 00:12
A high-school student on a long plane journey thinks about doing a projectile experiment
- 00:17
using some of the airplane food... just from a spoon, not her stomach...but her
- 00:21
better judgment takes over and she refrains.
Full Transcript
- 00:24
If she had launched some food and wanted to estimate the launch angle required to hit
- 00:29
a target, which of Newton's equations of motion would
- 00:32
have to be modified to account for the airplane's uniform speed of 220 meters per second?
- 00:40
Initial and final velocities are u and v respectively, d is displacement, a is acceleration,
- 00:48
and t is time.
- 00:50
And here are the potential answers...
- 00:58
This problem might be intimidating at first... but before diving right into the answer choices,
- 01:02
let's think about the bigger picture here.
- 01:03
Ok. A high school student is on a plane, and is thinking about physics.
- 01:08
What's wrong with this picture? It's already amazing.
- 01:11
Specifically, she's thinking about the physics of launching some of her less than palatable
- 01:15
food across the aisle to hit her victim.
- 01:17
But we're told the plane is moving forward at a rate of 220 meters per second.
- 01:22
How do we account for this movement, to ensure that the victim, and only the victim gets
- 01:27
beaned by... beans?
- 01:30
Well this problem is actually testing us on our ability to isolate systems.
- 01:35
In other words, we have to determine whether or not the airplane's movement actually affects
- 01:38
the food projectile's flight, and the answer is....no.
- 01:42
Because the girl is sitting in the plane, which is moving at 220 meters per second,
- 01:46
the girl is also moving at 220 meters per second.
- 01:49
Boy, she's speedy.
- 01:50
And oh by the way, the beans are moving at 220 meters per second too.
- 01:54
Because her launching food takes place all in the plane, it means that the catapult and
- 01:59
her projectile, before she fires it, is also moving at 220 meters per second.
- 02:07
Keep in mind that all this "movement" is relative to the earth.
- 02:11
If we think about the airplane as an isolated system, with the girl, her weapons of destruction,
- 02:16
and her victim all contained inside the system...
- 02:19
...we can see that they are all stationary relative to each other because they are all
- 02:23
moving at 220 meters per second.
- 02:26
If this doesn't make sense, think about people on earth.
- 02:29
Every moment, we are rotating around the earth's axis at 1000 miles an hour,
- 02:32
around the sun at around 67,000 miles an hour,
- 02:35
and around our galaxy at 483,000 miles an hour.
- 02:39
That's.... fast.
- 02:41
We don't feel a thing because we're always moving this fast relative to space...
- 02:45
and everyone else, but relative to the earth, we aren't moving at all...
- 02:49
It's a good thing too, since we'd find it tough to play baseball if the balls couldn't
- 02:53
keep up with the earth.
- 02:55
With all this said, we can come full circle and answer the question.
- 02:58
Since the airplane is an isolated system, the movement of the airplane doesn't affect
- 03:03
the trajectory of the projectile.
- 03:04
The answer is (E), we don't have to modify any of the basic kinematics equations to accommodate
- 03:10
for the airplane's movement.
- 03:12
Well hey, sounds like the stars are aligned... heads up in Seat 17F...
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