Do binoculars change the distance which the eyeball focuses?

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In summary: When you look at an object, say, for example, 30 feet away, your eyeballs adapt to focus at that distance of 30 feet.
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tade
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When you look at an object, say, for example, 30 feet away, your eyeballs adapt to focus at that distance of 30 feet.

When you look at the same object through a pair of binoculars, at what distance do your eyeballs adapt to focus at?

Is it more or less than 30 feet?

This is not a question about human biology, but about geometric optics. In other words, what is the focal distance of an image seen through a pair of binoculars
 
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This depends on the lens configuration of the binoculars. Most binoculars will have the possibility to change this, placing the image at varying distances and allowing you to put what you want to have in focus in focus. This also allows people with myopia to use the same binoculars to see the same object, but with different lens distance.
 
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Orodruin said:
This depends on the lens configuration of the binoculars. Most binoculars will have the possibility to change this, placing the image at varying distances and allowing you to put what you want to have in focus in focus. This also allows people with myopia to use the same binoculars to see the same object, but with different lens distance.
Is the focal distance usually larger or smaller than the original focal distance?
 
  • #4
tade said:
Is the focal distance usually larger or smaller than the original focal distance?
The typical thing for your eyes to relax is to place the virtual image at infinity (unless you suffer from myopia).
 
  • #5
tade said:
When you look at the same object through a pair of binoculars, at what distance do your eyeballs adapt to focus at?
It's really up to the user. The 'focus' wheel can place the image anywhere from 'fairly close' (depending on the design), through a relaxed few metres and to 'infinity' (and beyond - to quote Buzz Lightyear).
If you want to experiment with your bios, you can set the binoculars to your preferred image distance, use just one tube and see if you can judge what other objects, viewed with the other eye, appear to be at the same distance. Some people find this exercise easy and others find it impossible. There is an alternative 'parallax method' which is complicated to describe but it's a common method used in School Optics experiments. Google it if you're interested.
 
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1. How do binoculars change the distance at which the eyeball focuses?

Binoculars use a combination of lenses to magnify the image and bring it closer to the eye. This allows the eyeball to focus on the image at a shorter distance than it would without the binoculars.

2. Can binoculars help with nearsightedness or farsightedness?

Binoculars can help with both nearsightedness and farsightedness, as they allow the eye to focus on objects at different distances. However, they do not correct the underlying vision problem and should not replace corrective lenses.

3. Do all binoculars have the same focusing distance?

No, the focusing distance of binoculars can vary depending on the type and quality of the lenses used. Some binoculars may have a shorter or longer focusing distance than others.

4. How does the focusing distance affect the clarity of the image?

The focusing distance can greatly impact the clarity of the image seen through binoculars. If the image is not focused at the correct distance, it can appear blurry or distorted.

5. Is there a limit to how far binoculars can change the focusing distance?

Yes, there is a limit to how far binoculars can change the focusing distance. This is determined by the design and magnification power of the binoculars. Trying to focus on objects too far away may result in a blurry image.

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