Difference between revisions of "Maxwell's Wheel (Big Yo Yo)"

From UO Physics Demonstration Catalog

(Created page with "{{NewDemo|subject=Mechanics|topic=Rotational Dynamics|file1=Maxwells_Wheel.gif|file2=maxwellswheel.JPG}} Essentially a yo-yo with a slightly different configuration. Wind the strings up on the axle (with each turn to the inside of the previous) and let go. When it reaches the bottom it will climb nearly as high as its beginning point. Be sure that the strings are of equal length to ensure proper operation. Also check that they wind towards the center to keep the strings...")
 
Line 1: Line 1:
{{NewDemo|subject=Mechanics|topic=Rotational Dynamics|file1=Maxwells_Wheel.gif|file2=maxwellswheel.JPG}}
{{NewDemo|subject=Mechanics|topic=Rotational Dynamics|file1=Maxwells_Wheel.gif|file2=maxwellswheel.JPG}}


Essentially a yo-yo with a slightly different configuration. Wind the strings up on the axle (with each turn to the inside of the previous) and let go. When it reaches the bottom it will climb nearly as high as its beginning point. Be sure that the strings are of equal length to ensure proper operation. Also check that they wind towards the center to keep the strings on the axle.
Essentially a yo-yo with a slightly different configuration. Wind the strings up on the axle (with each turn to the inside of the previous) and let go. When it reaches the bottom it will climb nearly as high as its beginning point. Be sure that the strings are of equal length to ensure proper operation. Also check that the wind is towards the center to keep the strings on the axle. Hang from a spring scale and you will see the impulse when the wheel changes direction.


'''Location:'''
'''Location:'''


* Drawer 13
* Drawer 13

Revision as of 09:06, 7 December 2022

Return to Rotational Dynamics

Maxwells Wheel.gif

Description:

Essentially a yo-yo with a slightly different configuration. Wind the strings up on the axle (with each turn to the inside of the previous) and let go. When it reaches the bottom it will climb nearly as high as its beginning point. Be sure that the strings are of equal length to ensure proper operation. Also check that the wind is towards the center to keep the strings on the axle. Hang from a spring scale and you will see the impulse when the wheel changes direction.

Location:

  • Drawer 13