The characteristics of an image formed by a convex spherical mirror are virtual, upright, and diminished in size. The image is formed behind the mirror and its size is smaller than the object being reflected.
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
An image formed by a convex mirror is virtual, upright, and diminished in size. The image is formed behind the mirror, making it appear smaller than the object being reflected. Additionally, the image is not focused and does not produce a real intersection of light rays.
A virtual image is always upright in relation to the object.
The image seen in a concave mirror can be either real or virtual. A real image is formed when light rays actually converge at a point, while a virtual image is formed when light rays only appear to converge. The characteristics of the image will depend on the distance of the object from the mirror and the mirror's focal length.
The characteristics of an image formed by a convex spherical mirror are virtual, upright, and diminished in size. The image is formed behind the mirror and its size is smaller than the object being reflected.
Its called a virtual image.
virtual :-)
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
An image formed by a convex mirror is virtual, upright, and diminished in size. The image is formed behind the mirror, making it appear smaller than the object being reflected. Additionally, the image is not focused and does not produce a real intersection of light rays.
A virtual image is always upright in relation to the object.
The image seen in a concave mirror can be either real or virtual. A real image is formed when light rays actually converge at a point, while a virtual image is formed when light rays only appear to converge. The characteristics of the image will depend on the distance of the object from the mirror and the mirror's focal length.
A negative sign is associated with a virtual image because the light rays do not actually converge at the location of the virtual image. Instead, they appear to diverge from a point behind the mirror or lens, creating the virtual image. Mathematically, this distance is represented as negative to indicate the direction of the virtual image.
A plane mirror forms a virtual image. If it's reflected, then the light does not come from the image, and it is virtual.
a virtual image
A convex lense forms only a virtual image.
If an image can be formed on screen it is classified as real. Virtual images cannot be projected on an image.