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A lot of surfaces are non-reflective if viewed on a small scale, bricks for example. They do not reflect an image like a mirror does. However, almost all surfaces reflect light (otherwise you wouldn't be able to see them). It's more to do with colour really. A black surface does not reflect light. It absorbs it, unless it's very shiny like a car body. in which case it reflects it like a mirror.
What else can I help you with?
What object has a matte surface?
A chalkboard has matte surface, which is non-reflective and not shiny.
Between a mirror and non reflective surface?
A mirror reflects light, creating a clear image, while a non-reflective surface absorbs or scatters light, making the image unclear or nonexistent. Mirrors have a smooth surface that bounces light back in a predictable manner, while a non-reflective surface lacks this smoothness and causes light to scatter randomly.
What is the distance between the surface at the center of a reflective surface and the focal point?
The distance between the surface at the center of a reflective surface and its focal point is equal to half the radius of curvature of the surface.
Why can you see your own reflection image in a mirror but not on a dry painted wall?
A mirror has a smooth and reflective surface that bounces light in a way that creates a clear reflection. A dry painted wall has a rough, non-reflective surface that scatters light, making it difficult to see a clear reflection.
Which term indicates the distance between the surface at the center of a reflective surface and the focal point aplus answer?
The term you are referring to is the focal length, which is the distance between the surface of a reflective surface (such as a mirror) and the focal point.
What is matte surface?
A matte surface is non-reflective. It is the opposite of shiny.
What object has a matte surface?
A chalkboard has matte surface, which is non-reflective and not shiny.
Between a mirror and non reflective surface?
A mirror reflects light, creating a clear image, while a non-reflective surface absorbs or scatters light, making the image unclear or nonexistent. Mirrors have a smooth surface that bounces light back in a predictable manner, while a non-reflective surface lacks this smoothness and causes light to scatter randomly.
How a glassy luster differs from a metallic luster?
A glassy luster appears smooth and reflective, like a piece of glass, while a metallic luster appears shiny and reflective like metal. Glassy luster is typically seen in non-metallic minerals such as quartz, whereas metallic luster is characteristic of metals and certain metallic minerals.
What is the distance between the surface at the center of a reflective surface and the focal point?
The distance between the surface at the center of a reflective surface and its focal point is equal to half the radius of curvature of the surface.
What are the differences between matte and glossy finishes on Shutterfly products?
Matte finishes have a flat, non-reflective surface, while glossy finishes have a shiny, reflective surface. Matte finishes are more subtle and can reduce glare, while glossy finishes enhance colors and details.
Why can you see your own reflection image in a mirror but not on a dry painted wall?
A mirror has a smooth and reflective surface that bounces light in a way that creates a clear reflection. A dry painted wall has a rough, non-reflective surface that scatters light, making it difficult to see a clear reflection.
Which term indicates the distance between the surface at the center of a reflective surface and the focal point aplus answer?
The term you are referring to is the focal length, which is the distance between the surface of a reflective surface (such as a mirror) and the focal point.
What is the appearance of a minerals surface judged by its brilliance and reflective abilities?
The appearance of a mineral's surface is judged by its brilliance and reflective abilities which are determined by its luster. Luster can be categorized as metallic, non-metallic, or submetallic based on how the mineral reflects light. Each type of luster gives the mineral a distinct appearance.
Which indicates the imaginary line that extends straight out from the center of a reflective surface?
The imaginary line that extends straight out from the center of a reflective surface is the optical axis.
Which term indicates the imaginary line that extends straight out from from the center of a reflective surface?
The imaginary line that extends straight out from the center of a reflective surface is the optical axis.
Which term indicates an imaginary line that extends straight out from the center of a reflective surface?
The term that indicates an imaginary line extending straight out from the center of a reflective surface is called the "normal line." This line is perpendicular to the surface at the point of incidence where light strikes the reflective surface. It is essential in understanding the angles of incidence and reflection in optics.
