What is the Linear Distance and Angular Velocity of a Rotating Potter's Wheel?

AI Thread Summary
The discussion revolves around calculating various parameters of a potter's wheel with a radius of 35.9 cm and an angular acceleration of 2.91 rad/s². After 5.37 seconds, the wheel rotates through an angle of 77.7 rad, leading to questions about linear distance traveled, initial angular velocity, final angular velocity, and centripetal acceleration. A participant initially struggles with calculating the linear distance but realizes the relationship between the angle and arc length, ultimately determining that the linear distance is 27.9 m. The conversation emphasizes the importance of understanding the relationship between angular displacement and linear distance in rotational motion. This thread highlights key concepts in rotational dynamics and problem-solving techniques.
jdmaxwell02
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Homework Statement
I've tried using kinematics but still can't get the right answer
Relevant Equations
a_rad = w^2*r
A potter's wheel with a 35.9 cm radius rotates with a 2.91 rad/s2 angular acceleration. After 5.37 s, the wheel has rotated through an angle of 77.7 rad.
a)What linear distance did a point on the outer edge travel during the 5.37 s?
b)What was the initial angular velocity of the wheel?
c)What was the angular velocity of the wheel at 5.37 s?
d)What is the centripetal acceleration at 5.37 s?
 
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jdmaxwell02 said:
Homework Statement: I've tried using kinematics but still can't get the right answer
Homework Equations: a_rad = w^2*r

A potter's wheel with a 35.9 cm radius rotates with a 2.91 rad/s2 angular acceleration. After 5.37 s, the wheel has rotated through an angle of 77.7 rad.
a)What linear distance did a point on the outer edge travel during the 5.37 s?
b)What was the initial angular velocity of the wheel?
c)What was the angular velocity of the wheel at 5.37 s?
d)What is the centripetal acceleration at 5.37 s?
Per forum rules, please post your attempt.
 
Ive calculated delta theta, but since it’s not correct I cannot continue
 

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jdmaxwell02 said:
Ive calculated delta theta, but since it’s not correct I cannot continue
What is this Δθ you are calculating? You are given the angle through which it rotates.
 
haruspex said:
What is this Δθ you are calculating? You are given the angle through which it rotates.
The linear distance
 
jdmaxwell02 said:
The linear distance
Well, that's an unusual choice of notation. It looks like a change in some angle.
You are overthinking this part of the question. What is the relationship between the angle a wheel rotates and the distance around the edge that a point on the circumference moves?
 
haruspex said:
Well, that's an unusual choice of notation. It looks like a change in some angle.
You are overthinking this part of the question. What is the relationship between the angle a wheel rotates and the distance around the edge that a point on the circumference moves?
Wow, I really was.
θr= arc length
77.7 rad * .359 m= 27.9 m
 
jdmaxwell02 said:
Wow, I really was.
θr= arc length
77.7 rad * .359 m= 27.9 m
Ok.
On to the next part.
 

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