Wiki User
∙ 13y agoYour image shrinks
Wiki User
∙ 13y agoGoldliner RecordsTV
When you stand 2 meters in front of a full-length mirror, your image will appear to be 4 meters tall (twice your actual height) in the mirror. This is because the light reflects off you, then off the mirror, creating the illusion of an image that is equal distance behind the mirror as you are in front of it.
Images in a concave mirror appear inverted because the light rays converge at a focal point in front of the mirror, causing the image to be flipped. This is due to the way the mirror reflects and converges the light rays, creating a real, inverted image.
If a glass plate is replaced by a plane mirror, the mirror will reflect an image of the objects in front of it. The mirror will not refract light like the glass plate would, and the reflected image will appear to be at the same distance behind the mirror as the object is in front of it.
The focal length of a concave mirror to form a real image is positive. It is equal to half the radius of curvature (R) of the mirror, and the image is formed between the focal point and the mirror.
A mirror image appears reversed horizontally, meaning left and right are switched, but not back to front. For example, text in a mirror will be backwards.
The image of the word PEN in front of a plane mirror will appear as a reversed image of the word PEN. So, if you write PEN in front of a plane mirror, the reflection will show NEP.
It can't be more than one meter. The length of the image depends on the position of the scale held in front of the mirror. The length of the image depends on the angle between the plane mirror and the meter stick.
Reflected.
Images in a concave mirror appear inverted because the light rays converge at a focal point in front of the mirror, causing the image to be flipped. This is due to the way the mirror reflects and converges the light rays, creating a real, inverted image.
If a glass plate is replaced by a plane mirror, the mirror will reflect an image of the objects in front of it. The mirror will not refract light like the glass plate would, and the reflected image will appear to be at the same distance behind the mirror as the object is in front of it.
A plane (flat) mirror reflects an image which is the same size and shape, and colour as the object in front of the mirror. A concave mirror can produce a magnified image. If the image is in front of the mirror it is a real image; if behind it is a virtual (non-real) image. A real image can be cast upon a white the best) surface
The focal length of a concave mirror to form a real image is positive. It is equal to half the radius of curvature (R) of the mirror, and the image is formed between the focal point and the mirror.
A mirror image appears reversed horizontally, meaning left and right are switched, but not back to front. For example, text in a mirror will be backwards.
The image of the word PEN in front of a plane mirror will appear as a reversed image of the word PEN. So, if you write PEN in front of a plane mirror, the reflection will show NEP.
A concave mirror can produce a real or virtual image, depending on the location of the object. Real images are formed in front of the mirror and can be projected onto a screen, while virtual images are formed behind the mirror and cannot be projected. The characteristics of the image, such as magnification and orientation, are determined by the mirror's focal length and the object's distance from it.
40cm
The size of the mirror needs to be at least half the height of the person standing in front of it in order for the person to see their full length image. Therefore, a 3 ft tall vertical plane mirror would be the smallest size in which a 6 ft tall person can see their full length image.
A concave mirror forms a real or virtual image, depending on the object's distance from the mirror and the mirror's focal length.