concave lens formed virtual,erect and diminished image irrespective to the distance between the object and lens.
Convex lens always gives a virtual & diminished image.
Cancave lens always gives virtual, erect and diminished image.
virtual, erect and diminished
Convex lens give a virtual & diminished image while concave lens give inverted virtual in rare case & magnified image.
concave lens formed virtual,erect and diminished image irrespective to the distance between the object and lens.
Convex lens always gives a virtual & diminished image.
Cancave lens always gives virtual, erect and diminished image.
virtual, erect and diminished
Convex lens give a virtual & diminished image while concave lens give inverted virtual in rare case & magnified image.
Erect, diminished and will be on the same side of the object.
Image Quality
A convex Lens forms a real, inverted image which can be displayed on a screen placed before the lens i.e, opposite the direction the light rays are coming from. A diminished image is formed at the focus when light rays from an object are focus on the screen.
Yes, convex lens have this kind of property. Convex lens create a virtual image when the object is placed at a distance of 0 to F of the lens (where F is the focal length of the lens). The resulting image is always magnified, virtual and erect. When the object is placed outside the F, the image formed becomes diminished, real and inverted. However, concave lens can only form virtual images.
IF you meant a convex lens - light entering the lens is bent because it's passing from one medium to another - to converge at the focal point.
Extended contact lenses allow far more oxygen to get through to the eye than any other soft contact lens. With the increased oxygen supply to the eye, most complications that can occur when sleeping in other soft lens materials have been greatly diminished.
A parallel beam of light coming from an infinite source when passed through a convex lens such that the refractive index of medium is less than the refractive index of lens the light will suffer deviation and the rays will converge at a point called focus of the lens on the opposite side where the rays have been coming. The image will be highly diminished as all the rays converge at a point.