No, the color of a mirror does not affect it's reflection of light.
Wiki User
∙ 14y agolight is needed to reflect an image off a mirror...no light no reflection
A line of reflection is a reflected line, often off of a mirror. If a flashlight sends a beam of light at a mirror (the light is called the incident beam), the angle at which it hits the mirror will equall the angle at which the reflected beam of light (called the reflected beam), exits the mirror. This is called the Law of Reflection. This is why light is reflected from a mirror at the same angle at which light struck its surface. A line of reflection is a reflected line, often off of a mirror. If a flashlight sends a beam of light at a mirror (the light is called the incident beam), the angle at which it hits the mirror will equall the angle at which the reflected beam of light (called the reflected beam), exits the mirror. This is called the Law of Reflection. This is why light is reflected from a mirror at the same angle at which light struck its surface.
yes, it is true. "the reflection you see in a mirror depends on how the surfave reflects light." Quote from a life science book
30 degrees as the angle of reflection is equal to the angle of incidence
Also 23 degrees.
When light is reflected off a mirror, the frequency of the light does not change because reflection is a process that does not alter the properties of the light wave. The frequency of light corresponds to its color, and when we see our reflection in a mirror, we observe the same color that was emitted towards the mirror.
The angle of reflection determines the direction in which light is reflected off a mirror. If you look at the mirror straight on, the angle of incidence and reflection will be equal, allowing you to see your entire reflection. As you change the angle, the reflected light will bounce away from your eyes, making it harder to see yourself fully in the mirror.
The angle of reflection of light dictates the direction in which light bounces off the mirror. To see behind you, hold the mirror at an angle that allows reflected light to reach your eyes, enabling you to see objects in the mirror. Adjust the mirror's angle until you can clearly see the desired area behind you.
When light hits a mirror, it undergoes specular reflection, meaning it bounces off the mirror at the same angle it hits it. This reflection allows us to see our reflection in the mirror.
When light from a torch hits a mirror, most of the light gets reflected back in a predictable manner due to the smooth surface of the mirror. The angle of incidence (angle at which the light hits the mirror) equals the angle of reflection (angle at which the light bounces off the mirror). This reflection of light allows us to see our reflection in the mirror.
Yes, reflection can cause shadows. When light reflects off a surface, it can produce shadows if the reflected light is blocked by another object or surface. The presence of a reflective surface can affect the intensity and direction of shadows.
Light rays that strike a mirror are reflected according to the law of reflection, where the angle of incidence is equal to the angle of reflection. This is what allows us to see our reflection in a mirror.
No, your mirror reflection does not occupy physical space. It is simply a reflection of light bouncing off the mirror's surface.
When a light beam is incident on a mirror, reflection occurs. The mirror surface reflects the light beam back in a predictable manner, following the law of reflection, where the angle of incidence is equal to the angle of reflection.
When light bounces off a mirror, it is known as reflection. The angle of incidence (incoming light) is equal to the angle of reflection (outgoing light), following the law of reflection.
It could be a play of light tricking your eyes or a reflection from another surface. Sunglasses do not have a presence of their own to affect your reflection.
Light bounces off a flat mirror in a process called reflection. The angle at which the light approaches the mirror is equal to the angle at which it reflects off the mirror, following the law of reflection.