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← Revision 15 as of 2019-08-01 18:13:54 ⇥
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| ||<:30%>[[PiraScheme#Mechanics| Table of Mechanics Demonstration]]||<:30%>[[MEEquipmentList| List of Mechanics Equipment & Supplies]]||<:30%>[[Demonstrations|Lecture Demonstrations]]|| | ||<30% style="" & quot;text-align:center& quot; " ">[[PiraScheme#Mechanics|Table of Mechanics Demonstration]] ||<30% style="" & quot;text-align:center& quot; " ">[[MEEquipmentList|List of Mechanics Equipment & Supplies]] ||<30% style="" & quot;text-align:center& quot; " ">[[Demonstrations|Lecture Demonstrations]] || |
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| '''Topic and Concept:''' | |
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| '''Topic and Concept:''' Motion in One Dimension, [[MotionIn1D#UniformAcceleration| 1C20. Uniform Acceleration]] |
. Motion in One Dimension, [[MotionIn1D#UniformAcceleration|1C20. Uniform Acceleration]] '''pira200 Listed''' |
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| * '''Bay:''' C2 | * '''Bay:''' A4 |
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| ||<40% style="" & quot; & amp; quot; ;text-align:center& quot; " ">'''Equipment''' ||<30% style="" & quot;text-align:center& quot; " ">'''Location''' ||<25% style="" & quot;text-align:center& quot; " ">'''ID Number''' || || || || || ||Penny and Cotton Tube ||ME, Bay A4, Cubby ||1C20.10 || ||[[VacuumPump|Vacuum Pump]] ||ME, Floor Item, South wall ||2A.EQ.100 || |
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| ||<:style="width: 60%" :40%>'''Equipment'''||<:30%>'''Location'''||<:25%>'''ID Number'''|| || || || || ||Penny and Cotton Tube||ME, Bay C3, Cubby||1C20.10|| ||[[VacuumPump|Vacuum Pump]]||ME, Floor Item, South wall||2A.EQ.100 || |
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| '''''Important Setup Notes:''''' | '''''Important Setup Notes:''''' |
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| '''Setup and Procedure:''' | '''Setup and Procedure:''' |
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| 1. Evacuate the tube by using the vacuum pump, and then rapidly invert the tube. Note that both objects now fall at the same. | 1. Evacuate the tube by using the vacuum pump, and then rapidly invert the tube. Note that both objects now fall at the same. |
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| '''Discussion:''' | |
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| '''Discussion:''' A glass tube at least a meter in length is equipped with a valve and nozzle through which the tube can be evacuated with a vacuum pump. Such a tube is called a guinea and feather tube because those were the objects traditionally used when the demonstration was performed in England centuries ago. The guinea was an English gold coin issued from 1663 to 1813 and valued at 21 shillings. In this tub, a modern coin and a ball of cotton are used. Our penny is so old that the edge of the penny is distorted from the years of use. |
A glass tube at least a meter in length is equipped with a valve and nozzle through which the tube can be evacuated with a vacuum pump. Such a tube is called a guinea and feather tube because those were the objects traditionally used when the demonstration was performed in England centuries ago. The guinea was an English gold coin issued from 1663 to 1813 and valued at 21 shillings. In this tub, a modern coin and a ball of cotton are used. Our penny is so old that the edge of the penny is distorted from the years of use. |
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| If a vacuum pump is not available, an alternate form of the demonstration can be done using a heavy book and a sheet of paper (smaller than the book)[1]. The two are first dropped side by side. The book will fall much faster. The paper is then placed flat on top of the book and the two are released together. They will fall at the same rate because the book eliminates the air resistance that the paper would otherwise experience. | If a vacuum pump is not available, an alternate form of the demonstration can be done using a heavy book and a sheet of paper (smaller than the book)[1]. The two are first dropped side by side. The book will fall much faster. The paper is then placed flat on top of the book and the two are released together. They will fall at the same rate because the book eliminates the air resistance that the paper would otherwise experience. || {{attachment:PennyCotton-01-250.jpg}} || {{attachment:PennyCotton-06-250.jpg}} || {{attachment:PennyCotton-05-250.jpg}} || |
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| ||{{attachment:PennyCotton-01-250.jpg}}||{{attachment:PennyCotton-06-250.jpg}}||{{attachment:PennyCotton-05-250.jpg}}|| | |
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| *[[https://www.youtube.com/watch?v=DqSCOjGuKEk|Penny and Feather, 1C20.10]] *[[https://www.youtube.com/user/LectureDemostrations/videos?view=1|Lecture Demonstration's Youtube Channel]] |
* [[https://www.youtube.com/watch?v=DqSCOjGuKEk|Penny and Feather, 1C20.10]] * [[https://www.youtube.com/user/LectureDemostrations/videos?view=1|Lecture Demonstration's Youtube Channel]] |
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Penny and Cotton (AKA Guinea and Feather), 1C20.10
Topic and Concept:
Motion in One Dimension, 1C20. Uniform Acceleration
pira200 Listed
Location:
Cabinet: Mechanic (ME)
Bay: A4
Shelf: Cubby
Abstract:
A glass tube contains a piece of cotton ball and a penny. It is fitted with a valve on one end so that it may be attached to a vacuum pump.
Equipment |
Location |
ID Number |
|
|
|
Penny and Cotton Tube |
ME, Bay A4, Cubby |
1C20.10 |
ME, Floor Item, South wall |
2A.EQ.100 |
Important Setup Notes:
- N/A
Setup and Procedure:
- Either have the glass tube in its box until use or have a soft mount ready on the table to place the tube on.
- For pump setup, see vacuum pump page linked above.
- Place both objects at one end of the tube at atmospheric pressure, and then rapidly invert the tube. Note that the two objects fall at different rates in air.
- Again, place both objects at one end of the tube.
- Evacuate the tube by using the vacuum pump, and then rapidly invert the tube. Note that both objects now fall at the same.
Cautions, Warnings, or Safety Concerns:
- The tube is fragile. Handle with care.
Discussion:
A glass tube at least a meter in length is equipped with a valve and nozzle through which the tube can be evacuated with a vacuum pump. Such a tube is called a guinea and feather tube because those were the objects traditionally used when the demonstration was performed in England centuries ago. The guinea was an English gold coin issued from 1663 to 1813 and valued at 21 shillings. In this tub, a modern coin and a ball of cotton are used. Our penny is so old that the edge of the penny is distorted from the years of use.
One can introduce this demonstration by asking the audience which falls faster, the cotton or the penny. Whichever answer is given is either right or wrong depending upon whether the experiment is performed in the air or in a vacuum. One can point out that in science there are often opposing theories, and in such cases, experiments are required to determine which theories are correct. Actually, an experiment usually cannot prove that a theory is correct, only that it is incorrect.
If a vacuum pump is not available, an alternate form of the demonstration can be done using a heavy book and a sheet of paper (smaller than the book)[1]. The two are first dropped side by side. The book will fall much faster. The paper is then placed flat on top of the book and the two are released together. They will fall at the same rate because the book eliminates the air resistance that the paper would otherwise experience.
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