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Gee-haw whammy diddle
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Gee-haw whammy diddle : ウィキペディア英語版
Gee-haw whammy diddle


A gee-haw whammy diddle is a mechanical toy consisting of two wooden sticks. One has a series of notches cut transversely along its side and a smaller wooden stick or a propeller attached to the end with a nail or pin. This stick is held stationary in one hand with the notches up, and the other stick is rubbed rapidly back and forth across the notches. This causes the propeller to rotate. Sometimes also known as a ouija windmill, a hoodoo stick or a VooDoo stick. The word ''whammy'' is sometimes ''whimmy'' and the word ''diddle'' sometimes ''doodle'', giving it three possible other names, and the ''gee-haw'' may also be dropped.
''Gee-haw'' refers to the fact that, by rubbing your finger against the notched stick while rubbing, the direction of the spinning propeller may be reversed. The operator may do this surreptitiously and yell "gee" or "haw" to make it appear that the propeller is reacting to the commands. If you call it a ''hooey stick'', you would yell "hooey" each time you want the direction to change.
==Physical explanation==
The single most important item is that the hole diameter in the propeller be large in comparison to the nail, about twice as large, say. It basically then can be pictured similar to a twirling hoop on a stick, the side force of the finger or thumb on the notched stick forces it to the side as each notch is hit thus giving it a repeating side jump to pivot the propeller in one direction or the other. A nicely balanced propeller will spin just fine and it actually is not critical to have it heavy to one side, because the hole diameter always allows one side (slightly longer) to drop during the jerking motion which occurs.
To observe the effect, the propeller attached to the end of the ribbed stick must not be pinned at its exact centre of mass, i.e. off-center or loose. For a functioning whammy diddle, there should be a "preferred" angle (i.e. when stationary, if the propeller is rotated around its axis and then released, it should return to its lowest-energy rest angle relative to the ribbed stick.) Rubbing the ribbed stick with another stick along the grooves creates a vertical alternating driving force F_y acting on the centre of mass of the propeller:
: F_y(t) = Y cos(\omega t)
where h \omega = 2\pi/T and T is the time taken for the stick to move from one groove to the next; Y is some unknown scaling factor that characterizes the force with which the two sticks are pressed against one another. By rubbing a finger against these grooves on the side, one can also introduce a ''horizonal'' alternating driving force F_x
: F_x(t) = X cos(\omega t + \phi)
where \phi is a phase shift (describing the lag time between when the grooves contacts the moving rod, and finger respectively) and, again, X is some unknown scaling factor. Importantly, \omega is the ''same'' frequency, and the two driving forces are said to be phase locked. The confluence of two phase matched driving forces in orthogonal directions gives rise to a rotational force on the centre of mass at the propeller end, and thus, rotation.
When the operator of the whammy-diddle surreptitiously changes the side at which his/her finger contacts the stick (e.g. by contacting with his thumb instead of his fore-finger, or by changing the side at which a finger contacts the grooves of the base) he or she changes the sign of the phase \phi, and thus reverses the rotation.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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