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In a concave mirror, images can form either real or virtual, depending on the object's distance from the mirror. Real images are formed when the object is placed beyond the focal point, while virtual images are formed when the object is placed between the focal point and the mirror. The image formed is upright for concave mirrors.
A convex lens is more like a concave mirror in the way it produces images. A convex lens converges light rays to form real or virtual images, much like how a concave mirror can do the same by reflecting light. Both convex lenses and concave mirrors can produce both real and virtual images depending on the object's position relative to the lens or mirror.
Concave mirror* its reflecting surface is curved inwards*it can form both real and virtual images*the centre of curvature and the focus lies in front of the mirror*it can form both enlarged and diminished imagesConvex mirror* its reflecting surface is curved outwards*it can form only virtual images*the centre of curvature and the focus lies behind the mirror*it can form only diminished images
Concave mirrors form real images when the object is placed beyond the focal point of the mirror. Light rays reflecting off the mirror converge at a point in front of the mirror, creating a real image. This occurs because the concave mirror is designed to converge light rays that strike it.
A concave mirror is dished in ward. A convex mirror domed. Both images will be distorted in size from actuality. A convex mirror will give a wider view of what you are looking at in the mirror. A concave mirror will compress and magnify the image being viewed.
In a concave mirror, images can form either real or virtual, depending on the object's distance from the mirror. Real images are formed when the object is placed beyond the focal point, while virtual images are formed when the object is placed between the focal point and the mirror. The image formed is upright for concave mirrors.
A concave mirror can form real images or virtual images depending on the object position relative to the focal point of the mirror. Real images are formed when the object is located beyond the focal point, while virtual images are formed when the object is located between the mirror and the focal point.
A convex lens is more like a concave mirror in the way it produces images. A convex lens converges light rays to form real or virtual images, much like how a concave mirror can do the same by reflecting light. Both convex lenses and concave mirrors can produce both real and virtual images depending on the object's position relative to the lens or mirror.
Concave mirror* its reflecting surface is curved inwards*it can form both real and virtual images*the centre of curvature and the focus lies in front of the mirror*it can form both enlarged and diminished imagesConvex mirror* its reflecting surface is curved outwards*it can form only virtual images*the centre of curvature and the focus lies behind the mirror*it can form only diminished images
Concave mirrors form real images when the object is placed beyond the focal point of the mirror. Light rays reflecting off the mirror converge at a point in front of the mirror, creating a real image. This occurs because the concave mirror is designed to converge light rays that strike it.
It forms a virtual, right side up, magnified image.
A concave mirror is dished in ward. A convex mirror domed. Both images will be distorted in size from actuality. A convex mirror will give a wider view of what you are looking at in the mirror. A concave mirror will compress and magnify the image being viewed.
Some images on a mirror usually appear erect because of the concave mirror.
yes.
vetical upright a
A concave mirror is a spherical mirror with a reflective inside surface. When the reflective surface is made more curved, the distance between the focal point and the surface increases. A concave mirror can form both virtual or real images.
Concave mirrors can form both real and virtual images. Real images are formed when the reflected light rays actually converge at a point in front of the mirror, whereas virtual images are formed when the light rays appear to diverge from a point behind the mirror. The type of image formed depends on the position of the object relative to the focal point of the mirror.