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Where can the object not be seen at the point of a converging lens?
Wiki User
∙ 7y ago
According to the Physics Classroom, "When the object is located at the focal point, no image is formed."
http://www.physicsclassroom.com/class/refrn/Lesson-5/Converging-Lenses-Object-Image-Relations
Wiki User
∙ 7y ago
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What point of the converging lens can the object not be seen?
The object can't be seen at the focal point of a converging lens. This is because light rays from the object are focused at the focal point and don't diverge to form a real image.
At the point of a converging lens the object cannot be seen.?
If an object is placed at the focal point of a converging lens, the light rays coming from the object will be refracted parallel to the principal axis and will not converge to form a real image. As a result, the image formed will be at infinity and cannot be seen.
Compared to its actual size how will an object seen through a convex lens appear?
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 type of lens that magnifies an object?
convex converging apex... :P
How will an object seen through a concave lens appear?
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.
What point of the converging lens can the object not be seen?
The object can't be seen at the focal point of a converging lens. This is because light rays from the object are focused at the focal point and don't diverge to form a real image.
At the point of a converging lens the object cannot be seen.?
If an object is placed at the focal point of a converging lens, the light rays coming from the object will be refracted parallel to the principal axis and will not converge to form a real image. As a result, the image formed will be at infinity and cannot be seen.
Compared to its actual size how will an object seen through a convex lens appear?
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 type of lens that magnifies an object?
convex converging apex... :P
How will an object seen through a concave lens appear?
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.
In a microscope you can see less of the obeject on this lens?
An object is seen less in the lens as a whole because it magnifies a specific part of the object.
How does convex lens affect the area seen?
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.
Convex lensWhat type of image is seen from the lens?
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.
Where should an object be placed in front of a convex lens to get a real image of the size of the objects?
The object should be placed beyond the focal point of the convex lens to obtain a real image of the same size as the object. This distance is greater than the focal length of the lens, and the image will be inverted. Placing the object closer to the lens will produce a virtual image that is larger than the object.
How does a concave lens affect rays of light?
A concave lens causes rays of light to diverge, meaning they spread apart as they pass through the lens. This results in a virtual image that is seen as if it is coming from a point behind the lens. The image formed by a concave lens is always upright and smaller in size compared to the object.
How concave lens produce real image for virtual object?
A concave lens can produce a real image for a virtual object by refracting light rays in such a way that they diverge as if they originated from a point behind the lens. This creates an image that can be projected onto a screen or surface. The lens helps spread out the light rays, creating a focused image that can be seen.
Compared to its actual size how will an object seen through a concave lens appear?
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.
