normal
During reflection, the direction of light reverses. If light was traveling towards a reflective surface at a certain angle, it will bounce off the surface at an equal angle but in the opposite direction.
No, reflective materials require light in order to reflect. Without light, the reflective material will not be able to bounce light off its surface and appear reflective.
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.
When light strikes a smooth reflective surface, it follows the law of reflection, which states that the angle of incidence is equal to the angle of reflection. This means that the light bounces off the surface in a predictable way, producing a clear reflection.
A reflective surface is smooth and flat, allowing for the majority of light to be reflected off of it. It has a high level of reflectivity, which means it bounces light rays back in a predictable manner. The surface must also be opaque to prevent light from passing through.
During reflection, the direction of light reverses. If light was traveling towards a reflective surface at a certain angle, it will bounce off the surface at an equal angle but in the opposite direction.
No, reflective materials require light in order to reflect. Without light, the reflective material will not be able to bounce light off its surface and appear reflective.
light travels in a straight line because it can only be bend by reflective objects.
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.
A reflective surface is smooth and flat, allowing for the majority of light to be reflected off of it. It has a high level of reflectivity, which means it bounces light rays back in a predictable manner. The surface must also be opaque to prevent light from passing through.
When light strikes a smooth reflective surface, it follows the law of reflection, which states that the angle of incidence is equal to the angle of reflection. This means that the light bounces off the surface in a predictable way, producing a clear reflection.
Mirrors demonstrate the property of reflection, where light bounces off the mirror surface according to the law of reflection. They also show that light travels in straight lines and can change direction when it strikes a reflective surface. Additionally, mirrors can produce images by reflecting light in a way that preserves the orientation and size of objects.
The color of a mirror does not affect its reflective properties. Mirrors reflect light regardless of their color because they have a smooth and reflective surface. The color of a mirror is determined by the material used to coat its surface, but it does not impact its ability to reflect light.
yes. the colour depends on how much light a material reflects. shadows aren't as a shadow is an abscence of light
Tinsel is made from a material with a highly reflective surface, such as metallic foil or plastic. When light shines on the tinsel, the reflective surface causes the light to bounce off in different directions, creating a sparkling or glittering effect that appears as though the tinsel is attracting light.
When a beam of light strikes a reflective surface it reflects, angle of incidence = angle of reflection
The road looks reflective because of the smooth surface that allows light to bounce off of it, creating a shiny appearance.