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How does the object distance of a convex lens compared with the object distance of a concave lens?
The object distance of a convex lens is measured from the optical center to the object, while for a concave lens, it is measured from the optical center to the object along the path of light. In general, the object distance for a convex lens is positive, while for a concave lens, it is negative since the object distances are measured on the opposite sides of the lens.
The image produced by a convex lens depends on what?
The image depends on the distance the object is from the lens.
A type of lens that magnifies an object?
convex converging apex... :P
When an object is at infinity from a convex lens what will be the image?
When an object is at infinity from a convex lens, the image will be formed at the focal point of the lens. The image will be a real and inverted point of light.
What happens when an object is placed closer to a convex lens?
When an object is placed closer to a convex lens, the image that is formed will be farther away from the lens than the object is. This is because the convex lens will refract the light rays in a way that causes them to converge at a point behind the lens, creating a real and magnified image.
To magnify an object would you use a convex lens or a concave lens?
You would use a convex lens.
How does the object distance of a convex lens compared with the object distance of a concave lens?
The object distance of a convex lens is measured from the optical center to the object, while for a concave lens, it is measured from the optical center to the object along the path of light. In general, the object distance for a convex lens is positive, while for a concave lens, it is negative since the object distances are measured on the opposite sides of the lens.
The image produced by a convex lens depends on what?
The image depends on the distance the object is from the lens.
A type of lens that magnifies an object?
convex converging apex... :P
When an object is at infinity from a convex lens what will be the image?
When an object is at infinity from a convex lens, the image will be formed at the focal point of the lens. The image will be a real and inverted point of light.
What happens when an object is placed closer to a convex lens?
When an object is placed closer to a convex lens, the image that is formed will be farther away from the lens than the object is. This is because the convex lens will refract the light rays in a way that causes them to converge at a point behind the lens, creating a real and magnified image.
The image produced by a convex lens depends upon?
The image produced by a convex lens depends upon the object distance from the lens, the focal length of the lens, and the type of object being viewed (real or virtual). The characteristics of the image, such as its size, orientation, and location, are determined by the lens formula and the properties of the convex lens.
What kind of image is formed by a convex lens when the object at infinity?
The image produced is a real image if the object is located at infinity and the lens is a convex lens. The produced image can actually be placed on a screen and photographed.
Does convex lens produce real image?
No, convex lens does not produce a real image. It reflects the real image
When the object is placed at 2F in front of convex lens image is formed at?
When the object is placed at 2F in front of a convex lens, the image is formed at 2F on the other side of the lens. This is known as the "2F" image formation of a convex lens. The image is real, inverted, and the same size as the object.
When focusing on a distant object is the lens more concave?
When focusing on a distant object, the lens is more convex. The convex lens bends light inward and converges it at a focal point to form a sharp image of a distant object.
What can a convex lense form?
A convex lens can form a real or virtual image, depending on the location of the object relative to the lens. It can also magnify or reduce the size of an object depending on the object's distance from the lens.
