Rotational Dynamics on a door knob

AI Thread Summary
To determine the torque required to turn a doorknob through 1/6 of a revolution, the work done is given as 0.1 J. The relationship between torque (T), force (F), and radius (r) is expressed as T = F x r. The work done can also be represented as Wd = F x s, where s is the arc length, calculated as s = rθ, with θ being the angle in radians. By substituting these equations, the discussion emphasizes the need to simplify before calculating the values, noting that a full revolution corresponds to 2π radians. Understanding these relationships is essential for solving the problem effectively.
Huskies213
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Can anyone help me with where to begin ? ? ?

Turning a doorknob through 1/6 of a revolution requires 0.1 J of work. What is the torque required to turn the doorknob?

i know that T = F x r
what is the force and radius ?(is radius 3/6=1/2??)
 
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Energy equals force times distance. 0.1 = F*ds where ds = (pi/3)*R, pi/3 is 1/6 of revolution.
As you said T = F*R, So now you have 3 equations and 4 unknows one of which would cancel out.
I hope it is helpful.
 
Re

Can anyone explain more ? I am still lost
 
As you correctly say torque is given by;

\tau = F r

I would think you also know that work done is given by;

Wd = Fs

If we have a circle of radius r and an angle of \theta then the arc length subtended by that angle is given by;

s = r\theta

Now substituting s = r\theta into the work equation (because the force acts tangentally) gives;

\fbox{wd = F r\theta = \tau\theta}

This is basically what Dmitri said, but simplyfying before plugging in the numbers. Remember that a full revolution is 2\pi radians.

Hope this helps

-Hoot
 
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