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1.Image distance= object distance 2.Size of the image = size of the object 3.image is laterally inverted 4.Image is always virtual & erect
The image is equivalent to object in magnitude implying that the image is of the same size as the object.
This is known as MAGNIFICATION
Characteristics of an image formed by the plane mirror are :- * Virtual and erect (up right ) . * The image is of same size as that of the object . *The image is far behind the mirror as the object is in front of it . *The image is laterally inverted .
[object Object]
With a scale factor of 1, the image is exactly the same size as the original object.
A scale factor of one means that there is no change in size.
Your magnification factor is SID divided by OID. [MF = SID/OID] So for example: If your SID was 40 and your SOD was 32 Your magnification factor = 40/32 = 1.25 -- This means the image will appear 25% larger than the actual object. (It's the size of 1 plus 25 percent more of the original.) Example 2 if you're trying to figure out original object size: Your object size equals your image size divided by the magnification factor (MF). [object size = image size/ MF] If you have an object on an image that measure 70 inches when your SID was 100 and your OID was 65, how big was the original object? MF=100/65= 1.54 (rounded) Object size = 65/1.54 = 42.21 The object imaged was 42.21 inches before magnification.
In a plane mirror, the image size is of same size as that of the object, but in the rear view mirror, the image size is smaller than that of the mirror.
The size of the plan mirror should be half the size of the object to get a full size image of the object
it gets larger
The retina
true.
1.Image distance= object distance 2.Size of the image = size of the object 3.image is laterally inverted 4.Image is always virtual & erect
it shows the same size of the image or object shown in front of it
The image is equivalent to object in magnitude implying that the image is of the same size as the object.
This is known as MAGNIFICATION