A flat mirror reflects light by following the law of reflection, where the angle of incidence is equal to the angle of reflection. Light rays hit the mirror, bounce off it, and create a reflected image.
An example of reflection in a flat mirror is when you see your own reflection while standing in front of it. The light rays from your body strike the mirror and reflect back towards you, allowing you to see your image.
A smooth and polished surface, such as a mirror, is most likely to reflect light and form a clear image due to its ability to provide a flat and uniform surface for light to bounce off of uniformly.
It can reflect the visible light of a fire, and the heat.
If it's really a "mirror", then it reflects light, regardless of its shape.
The mirror used to reflect light in a microscope is called the concave mirror. This mirror is located beneath the stage of the microscope and directs light up through the specimen for viewing.
light is needed to reflect an image off a mirror...no light no reflection
Light is reflected of metal when it is polished and flat because it is very light and lighter colors reflect light whereas darker colors such as green suck the colors in.
An example of reflection in a flat mirror is when you see your own reflection while standing in front of it. The light rays from your body strike the mirror and reflect back towards you, allowing you to see your image.
A smooth and polished surface, such as a mirror, is most likely to reflect light and form a clear image due to its ability to provide a flat and uniform surface for light to bounce off of uniformly.
It can reflect the visible light of a fire, and the heat.
it will reflect off it
If it's really a "mirror", then it reflects light, regardless of its shape.
The mirror used to reflect light in a microscope is called the concave mirror. This mirror is located beneath the stage of the microscope and directs light up through the specimen for viewing.
A plane mirror is a flat, smooth surface that reflects light in a way that the angle of incidence (incoming light) is equal to the angle of reflection (outgoing light). This creates a virtual image that appears to be the same size and distance behind the mirror as the object is in front of it.
If it's really a "mirror", then it reflects light, regardless of its shape.
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.
Flat mirrors reflect light with the angle of incidence equaling the angle of reflection, as described by the law of reflection. This causes light rays to bounce off the mirror and create virtual images that appear behind the mirror. The size and orientation of the reflected image are identical to the original object.