As we place two mirrors inclined with each other then many images are formed. If @ is the angle of inclination then number of images is got by the formula
[360/@] - 1
Hence as we place the two mirrors at right angles ie 90 degree then number of images will be 3
If both mirrors kept parallel facing each other then infinite images are formed.
Yes, the images formed in a mirror are due to the reflection of light. When light rays hit a mirror, they bounce off the smooth surface and create a reflected image. This is how we see ourselves or objects when looking into a mirror.
A reflection in the mirror is called a mirror image. Mirror images are the virtual images that we see when looking at our reflection in a mirror.
When the incident light rays are falling towards the mirror in such a way that the light rays after falling on the mirror meet at any point in front of the mirror than an image is formed in front of the mirror which can be taken on a screen and as the image can be taken on a screen it is known as a real image. So, plane mirrors can form real images.
Yes, but it can be hard to arrange. You need to set up a real image as a virtual object, and make the convex mirror image that. If the rays converge strongly enough, they will still converge after reflecting off the convex mirror.
If you were inside a concave (or convex) spherical mirror, you would see a distorted and magnified (or shrunk) version of your own reflection. The image formed would depend on the type of mirror and your position inside it.
Yes, the images formed in a mirror are due to the reflection of light. When light rays hit a mirror, they bounce off the smooth surface and create a reflected image. This is how we see ourselves or objects when looking into a mirror.
A reflection in the mirror is called a mirror image. Mirror images are the virtual images that we see when looking at our reflection in a mirror.
Light 'bouncing' off the subject is reflected back by the mirror.
why isit difficult to see the details of images that are formed at the edge of the retina
Images are a result of reflected light. That is why you can't see yourself in the dark.
No
When the incident light rays are falling towards the mirror in such a way that the light rays after falling on the mirror meet at any point in front of the mirror than an image is formed in front of the mirror which can be taken on a screen and as the image can be taken on a screen it is known as a real image. So, plane mirrors can form real images.
There is a formula: (360/a) - 1 Where a is the angle between the mirrors. In your case: (360/50) - 1 = 6.2 so you will see 6 complete images.
Yes, but it can be hard to arrange. You need to set up a real image as a virtual object, and make the convex mirror image that. If the rays converge strongly enough, they will still converge after reflecting off the convex mirror.
When two plain mirrors are placed at a 150-degree angle, multiple images are formed. The number of images formed can be calculated using the formula: ( \text{Number of images} = \frac{360}{\text{angle between the mirrors}} - 1 ). In this case, with a 150-degree angle, the calculation would be ( \frac{360}{150} - 1 = 2 ) images are formed.
Your right! You see technically we see up side down but with the light we see right side up so what that means is yes it is upside down. Well, since the brain doesn't turn it "right side up" it could be either way that you look at it.
In addition to the primary image formed by one reflection off the back of the mirror, you may get images formed after two reflections and a total internal refraction: reflection off the back of mirror, refraction on inside of front surface of glass and reflection off back of the mirror. The refraction will only take place at a large angle.