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Find optimum radian and diameter of convex mirror

Alferd

By Alferd
in Classical Physics

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Lorentz Jr

Lorentz Jr

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How small (short and narrow) does the mirror have to be? If it can be 5 meters (the full height of the wall), it can just be flat (r = infinity) and the wall will be lit evenly.

2 minutes ago, Genady said:

Optimum what?

Radius?

Edited by Lorentz Jr
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Alferd

Alferd

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Thank you for your reply.

6 minutes ago, Lorentz Jr said:

Radius/diameter = 0.5! 😁 😎🙂

9 minutes ago, Genady said:

Radius/diameter can be anything between 0 and infinity.

How about the optimum radian of convex mirror should be apply if the diameter of mirror is 1 meter width?

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Genady

Genady

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6 minutes ago, Alferd said:

I want find the radian, not radius. Radian is a unit for measuring an angle.

If I've guessed correctly which angle, then you get the equation

0.5*sin(x)+(0.5-0.5*cos(x))*tan(2x-π/2))=5

OTOH, it can be as small as 0.

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Lorentz Jr

Lorentz Jr

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30 minutes ago, Alferd said:

This is practical problem.

To be perfectly honest, Alferd, if your goal is to light the wall evenly, this is a complicated optimization problem, so I doubt a circular mirror is ideal. Your best bet is probably to buy a bunch of long, skinny, flat mirrors and work out a way to hold them in place next to each other. Then you can adjust their angles experimentally to get whatever distribution of light you want, with no other restrictions on their overall shape. Flat mirrors will also be a lot cheaper than a custom-designed circular mirror. I'm sure people in the Engineering section of this forum will be able to help you.

Another way to solve the problem would be to work it out geometrically and iteratively on a piece of paper. Draw a bunch of light beams, reflect them off an arbitrary curved surface, and then adjust the surface and the light beams until the beams have the correct spacing on the wall. Then you can mold your own support, if you know how to do that, and cover it with a reflective sheet. Generally speaking, the mirror will have to be flatter near the top and more curved near the bottom.

Edited by Lorentz Jr
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Genady

Genady

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6 hours ago, Alferd said:

You means there is impossible to do that?

 

No, I mean I don't believe it's a practical problem.

Regardless, I gave you the equation above that solves the problem. Is it unsatisfactory?

6 hours ago, Lorentz Jr said:

to get whatever distribution of light you want

Where in the world the sunlight comes vertically like in the picture? How often does it happen and how long does it last?

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Genady

Genady

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18 minutes ago, Lorentz Jr said:

we need the mirrors to be dynamically programmed!

Right.

OTOH, if it were like in the picture - just as a fantasy - all that would be needed is a flat sheet of aluminum foil curved into a cylinder.

Of course, a flat surface like in your earlier post would do, too.

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Lorentz Jr

Lorentz Jr

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24 minutes ago, Genady said:

a flat surface like in your earlier post

No, my first suggestion was a number of long mirrored strips attached to each other to approximate a curve. Because I've seen those in home-improvement stores. Not strips exactly, but long and narrow.

Oh, I see. But that has to be as tall as the wall.

Edited by Lorentz Jr
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Alferd

Alferd

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23 hours ago, Genady said:

If I've guessed correctly which angle, then you get the equation

0.5*sin(x)+(0.5-0.5*cos(x))*tan(2x-π/2))=5

OTOH, it can be as small as 0.

From the answer that you given, the curvature is around 55 degree, am I right?

 

14 hours ago, Genady said:

Right.

OTOH, if it were like in the picture - just as a fantasy - all that would be needed is a flat sheet of aluminum foil curved into a cylinder.

Of course, a flat surface like in your earlier post would do, too.

As you said, we will do it in optimum cylinder shape to maximize the light reflect to the wall

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Genady

Genady

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42 minutes ago, Alferd said:

From the answer that you given, the curvature is around 55 degree, am I right?

I can't say because:

1) according to my calculations, the solution of the equation is about x=87 degrees

2) it is an angle rather than curvature

But first you should check the assumptions leading to this equation.

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Alferd

Alferd

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4 hours ago, Genady said:

I can't say because:

1) according to my calculations, the solution of the equation is about x=87 degrees

2) it is an angle rather than curvature

But first you should check the assumptions leading to this equation.

Thank you for your reply. How about the curvature, do you had any ideas on it?

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