Electric Ceiling Fan: 0.0988 Rev in 0.208s

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Homework Help Overview

The discussion revolves around the motion of an electric ceiling fan, specifically focusing on its angular displacement over a time interval given its initial angular velocity and angular acceleration. The problem is situated within the context of rotational kinematics.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the application of the relevant equations for angular motion, questioning the use of constant angular velocity in the original attempt. They explore the implications of angular acceleration on the calculations and suggest alternative methods for determining the number of revolutions.

Discussion Status

The discussion is active, with participants providing insights and alternative methods for solving the problem. Some guidance has been offered regarding the use of average angular velocity and the importance of considering angular acceleration. There is no explicit consensus on a single approach, as multiple interpretations are being explored.

Contextual Notes

Participants note potential confusion in calculations and the need for clarity on the application of the relevant equations. There is acknowledgment of the initial conditions and the nature of angular acceleration affecting the fan's motion.

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Homework Statement


An electric ceiling fan is rotating about a fixed axis with an initial angular velocity of 0.290 rev/s. The angular acceleration is 0.888 rev/s^2. Its blades form a circle of diameter 0.740 m.

Through how many revolutions has the blade turned in the time interval 0.208 s from Part A?

Homework Equations



theta (t) = theta (0) + w (0) t+ .5 at^2

The Attempt at a Solution



ngular velocity = .475 rev/ sec

.475 rev/s * .208 s = .0988 rev
 
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Hi teenholiday,

teenholiday said:

Homework Statement


An electric ceiling fan is rotating about a fixed axis with an initial angular velocity of 0.290 rev/s. The angular acceleration is 0.888 rev/s^2. Its blades form a circle of diameter 0.740 m.

Through how many revolutions has the blade turned in the time interval 0.208 s from Part A?

Homework Equations



theta (t) = theta (0) + w (0) t+ .5 at^2

The Attempt at a Solution



ngular velocity = .475 rev/ sec

.475 rev/s * .208 s = .0988 rev


Why didn't you use the equation you have listed under "Relevant equations" in your post?

(In your work, you found the final velocity, and then you found the number of revolutions it would have taken if it had been rotating at that final velocity the entire time; but I don't think that is what's happening in this problem.)
 
teenholiday said:

Homework Statement


An electric ceiling fan is rotating about a fixed axis with an initial angular velocity of 0.290 rev/s. The angular acceleration is 0.888 rev/s^2. Its blades form a circle of diameter 0.740 m.

Through how many revolutions has the blade turned in the time interval 0.208 s from Part A?

Homework Equations



theta (t) = theta (0) + w (0) t+ .5 at^2

The Attempt at a Solution



ngular velocity = .475 rev/ sec
How did you arrive at this? You were told that the initial angular velocity was .290 rev/s and the angular velocity is NOT a constant!

.475 rev/s * .208 s = .0988 rev
That is assuming a constant angular velocity which is not true. I'm with alphysicist: why not use the formula by have under "relevant equations"?

You could also use a different method: in general, with constant acceleration, the average velocity is just the arithmetic average of the initial velocity and the final velocity. You are told that the initial velocity is .475 rev/sec. It it accelerates at 0.888 rev per second per second for .208 seconds, how much will the angular velocity increase by? So what will be the final angular velocity? And then what is the average velocity? Using that average angular velocity, how many revolutions will be made in .208 seconds? You might try using both methods and see if you get the same answer.
 
^^

thanks for the alternative method.

i had tried using the relevant equation, but i must have been tired or something, because i kept on getting the wrong answer.

i got it now though. thanks.
 

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