|
| If this is your first visit, be sure to check out the FAQ by clicking the link above. You may have to register before you can post: click the register link above to proceed. To start viewing messages, select the forum that you want to visit from the selection below. |
|
|||||||
|
|
Thread Tools | Display Modes |
|
#9
November 20th 04, 07:08 PM
|
|||
|
|||
"F.L. Whiteley" wrote in message ...
"Jim Vincent" wrote in message ... The drum diameter has nothing to do with the torque!!! Sure it does. The rope has a certain amount of tension on it, usually measured in lbs. The rope is pulled off the drum at a certain distance from the center or rotation. That distance is the moment arm. The torque is the tension X moment arm, hence inch lbs or ft lbs. Jim Vincent N483SZ illspam And, in practice, constantly changing, generally increasing, depending on design and layup. Frank Whiteley Definition of Torque: The Torque on an object about some pivot point is due to the action of a force on the object. (So, if this is drum of a winch on a shaft I am assuming) Magnitude of the Torque: t = "Force" times the "Lever Arm" = (Component of the Force perpendicular to Lever Arm) x (Lever Arm - the distance between the pivotal axis and the point where the force is applied) = Fp l = (Force) x (Perpendicular line of action lever arm - the shortest distance between the pivot point and the line of action of the force through the body) = F lp = (Force) x (Lever Arm) x sin(angle between the two) = F l sin(q) Direction of Torque: · The more exact definition is that the torque is that the torque is the cross product of the lever arm with applied force. · The torque's direction is perpendular to both the direction of the lever arm and the direction of the force. The direction can be found using the right hand rule. I Units: N m * These are the same units as a Joule, but nobody uses Joules. There must be some deep connection which nobody has yet discovered. Any ideas ? Torque on a Body A force is applied to an irregular shaped body on a frictionless, horizontal surface. The location the point of application of the force can be altered by dragging the application-point. The magnitude and direction of the applied force can be altered by dragging its tail. Displayed are the torque, the magnitude and direction of the force, the lever arm, and the angle between the force and the lever arm. Also displayed are the perpendicular values of the applied force and the lever arm. Just my few thoughts....jk 
|
| Thread Tools | |
| Display Modes | |
|
|
Threaded Mode