Images are seen through a lens because the lens refracts or bends light rays, focusing them onto a surface such as a camera sensor or film. This process creates a real or virtual image that can be viewed or captured.
The characteristics of images seen through a magnifying glass are determined by the magnification power of the lens, the distance between the lens and the object being viewed, and the focal length of the lens. These factors affect the size, clarity, and distortion of the image.
A convex lens can produce both real and virtual images. Real images are formed when light rays converge at a point in front of the lens, while virtual images are formed when the diverging rays appear to originate from a point behind the lens. The type of image produced depends on the object's position relative to the focal point of the lens.
A camera or a lens forms images by bending light. The light rays are focused through a lens onto a sensor or film, where the image is captured.
Convex lenses can form both real and virtual images. Real images are formed when rays converge at a point after passing through the lens, while virtual images are formed when rays appear to diverge from a point behind the lens.
An object seen through a concave lens will appear smaller, upright, and virtual - meaning it will not project a real image on a screen. The image will be on the same side as the object and its characteristics will depend on the distance of the object from the lens.
The characteristics of images seen through a magnifying glass are determined by the magnification power of the lens, the distance between the lens and the object being viewed, and the focal length of the lens. These factors affect the size, clarity, and distortion of the image.
A convex lens can produce both real and virtual images. Real images are formed when light rays converge at a point in front of the lens, while virtual images are formed when the diverging rays appear to originate from a point behind the lens. The type of image produced depends on the object's position relative to the focal point of the lens.
A bi concave lens
A camera or a lens forms images by bending light. The light rays are focused through a lens onto a sensor or film, where the image is captured.
Convex lenses can form both real and virtual images. Real images are formed when rays converge at a point after passing through the lens, while virtual images are formed when rays appear to diverge from a point behind the lens.
Microscopes are instruments that uses lens to produce magnified images of objects too small to be seen by the eye.
An object seen through a concave lens will appear smaller, upright, and virtual - meaning it will not project a real image on a screen. The image will be on the same side as the object and its characteristics will depend on the distance of the object from the lens.
Images are reflected in a mirror due to the law of reflection, where the angle of incidence equals the angle of reflection. In lenses, images are formed due to the refraction of light as it passes through the lens, resulting in either real or virtual images depending on the type of lens and the position of the object.
An object seen through a convex lens will appear larger than its actual size. This is because the convex lens converges light rays and brings them to a focus point, magnifying the image.
A convex lens will magnify objects viewed through it, making them appear larger. The lens focuses light rays onto a point, creating an enlarged image. As a result, the area seen through a convex lens will appear larger than the actual object being viewed.
An object seen through a concave lens will appear smaller than its actual size. This is because a concave lens diverges light rays, causing them to spread out, which creates a reduced image size.
Real images form in a lens when light rays converge at a point after passing through the lens. This convergence results in an image that can be projected onto a screen. The distance of the screen from the lens determines the size and orientation of the image.