If you cannot see an image on the surface, it could be due to a few reasons. It might be because of lighting conditions, a reflective surface causing glare, the image being too faint or small, or a display failure. Adjust the lighting, try viewing from different angles, increase the image size or resolution, or check for any technical issues.
To see a real image in the lab, you can use a concave mirror or a convex lens to focus light rays from an object onto a screen or surface. This will create a clear and inverted image that can be observed and studied.
We can see through it at the day time because it's light outside but at night when it's dark; switch on the light of the room and you are able to see yourself in the transparent glass.
You can see a reflection in a surface when light rays bounce off the surface and travel to your eyes, creating an image of what is in front of the surface. In order for a reflection to be clear, the surface needs to be smooth and not absorbent.
A white rough surface reflects light rays in many directions, causing them to scatter and not form a clear image of your reflection. This diffuse reflection results in a lack of distinct reflection, making it difficult to see your reflected image on a white rough surface.
Light waves are bouncing back from the surface of the mirror. These light waves carry the image of you that you see in the mirror by reflecting the light that hits the mirror back to your eyes.
To see a real image in the lab, you can use a concave mirror or a convex lens to focus light rays from an object onto a screen or surface. This will create a clear and inverted image that can be observed and studied.
An Image is formed only when there is parallel reflection of light rays that falls on the surface..... Like in Mirror, the surface is plane, while in case of Paper, the surface is irregular or zic zag and hence the reflected rays are not parallel to each other and so no image is formed.
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We can see through it at the day time because it's light outside but at night when it's dark; switch on the light of the room and you are able to see yourself in the transparent glass.
Mirrors have a special surface, usually at the back, that reflects light. This means that light that strikes the mirror's special surface bounces back. Light coming from you goes to the mirror's surface, bounces back and some of that light enters your eyes so that you are able to see your own image.
You can see a reflection in a surface when light rays bounce off the surface and travel to your eyes, creating an image of what is in front of the surface. In order for a reflection to be clear, the surface needs to be smooth and not absorbent.
A white rough surface reflects light rays in many directions, causing them to scatter and not form a clear image of your reflection. This diffuse reflection results in a lack of distinct reflection, making it difficult to see your reflected image on a white rough surface.
Light waves are bouncing back from the surface of the mirror. These light waves carry the image of you that you see in the mirror by reflecting the light that hits the mirror back to your eyes.
I can see my reflection in the mirror, which is an image of my face, located behind the mirror's surface. The image appears to be at the same distance behind the mirror as my actual face is in front of the mirror.
When you look at a flat rough aluminum surface, your image is not visible because the surface is not smooth and reflective enough to create a clear reflection of light. The roughness and imperfections in the surface scatter the light that hits it, preventing a clear image from forming.
You see a clear reflection of the object's image on the smooth surface.
A rough surface scatters light in random directions, making it difficult for the rays to reflect back to your eyes in a clear manner to form a visible image. This results in a lack of reflective properties and a distorted or blurry reflection, making it hard to see your image on a white rough surface.