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Degree Distasnce


Robust

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One of the more frequently asked questions I get from graduate and undergraduate students alike is how to determine the distance between each angular degree on circumference of the circle. For those here who might ask, the answer is quite straightforward: radius/radian.

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One of the more frequently asked questions I get from graduate and undergraduate students alike is how to determine the distance between each angular degree on circumference of the circle. For those here who might ask, the answer is quite straightforward: radius/radian.

So let's make sure I understand you here. To make things easy let's use a unit circle so the radius=1. Now the distance halfway around the circle is pi radians so you're saying the distance between 0° and 180° on the circumference is 1/pi? The distance all the way around the circle is 1/2pi? One degree is pi/180 radians right? So the distance along one degree is 1/(pi/180)? Is this what you're saying? :)

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So let's make sure I understand you here. To make things easy let's use a unit circle so the radius=1. Now the distance halfway around the circle is pi radians so you're saying the distance between 0° and 180° on the circumference is 1/pi? The distance all the way around the circle is 1/2pi? One degree is pi/180 radians right? So the distance along one degree is 1/(pi/180)? Is this what you're saying? :)

No, Clay. What I'm saying is exactly as stated: radius/radian = degree-distance. You give a radius of 1.0, so with a radian of 57.2957....then tthe distance between each angular degree on the circumference would be: 1/radian = 0.01745.... unit.

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They are. Robust is busy inventing new math again....

 

There's no new maths here at all, people. The radian is simply that distance on the arc as that of the radius which subtends it. Accordingly then, radius/radian gives the distance between each angular degree on the circumference.....as clearly shown by the given example.. I have given you new maths, but this certainly ain't it!

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No, Clay. What I'm saying is exactly as stated: radius/radian = degree-distance. You give a radius of 1.0, so with a radian of 57.2957...
The radian is simply that distance on the arc as that of the radius which subtends it. Accordingly then, radius/radian gives the distance between each angular degree on the circumference...

If the radian is the distance on the arc equal to the radius, then if the radius = 1, then the radian = 1, and radius/radian = 1, not 0.01745.

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We all now that the length of an arc is

 

L = angle ( in radians ) * radius

 

angle ( in radians) = angle ( in degrees ) / 360 * 2 pi

 

L = angle ( in degrees ) / 360 * 2 pi * radius

 

We're talking about 1 degree so

 

L = 1 / 360 * 2 pi * radius

 

L = 2 pi / 360 * radius

 

 

360 / 2pi is the angle in degrees corresponding to an angle of 1 radian . To call this radian is not correct.

He says something true ;) , but in his unique way

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There's no new maths here at all, people. The radian is simply that distance on the arc as that of the radius which subtends it. Accordingly then, radius/radian gives the distance between each angular degree on the circumference.....as clearly shown by the given example.. I have given you new maths, but this certainly ain't it!

Plenty of new math. A circle is 2π radians and the circumference of that circle is radius*2π not the radius/2π.

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Plenty of new math. A circle is 2π radians and the circumference of that circle is radius*2π not the radius/2π.

 

You protest too quickly, Clay. The post does not relate to determining circumference but to the distance between each angular degree on the circumference - most readily given as radius/radian. Have you tried it?

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You protest too quickly, Clay. The post does not relate to determining circumference but to the distance between each angular degree on the circumference - most readily given as radius/radian. Have you tried it?

Be it one degree or 360 of them, the distance is still the radius times the angle in radians, not the radius divided by the angle in radians.

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Be it one degree or 360 of them, the distance is still the radius times the angle in radians, not the radius divided by the angle in radians.

 

You got it just backwards, Clay. The distance between each angular degree on the circumference is given by radius/radian (as the quickest result).

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