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What ray is parallel to the axis of a concave lens?
A ray parallel to the axis of a concave lens will refract through the lens and appear to have come from the focal point on the same side as the object.
When an object is is viewed through a convex lens held in front of a concave lens does the object get bigger or smaller?
When an object is viewed through a convex lens held in front of a concave lens, the object can appear either smaller or larger depending on the specific characteristics of the lenses and their relative positions. The combination of lenses can either magnify or reduce the size of the object.
Where does the image of a concave lens always appear?
The image formed by a concave lens is always virtual, upright, and located on the same side as the object. It is also diminished in size compared to the object.
What does a virtual image of a object look like through a concave lens?
A virtual image of an object through a concave lens is always upright, reduced in size, and appears on the same side of the lens as the object. Its location depends on the distance of the object from the lens and the focal length of the lens.
What happens to an object if you move it closer to a concave lens?
If you move an object closer to a concave lens, the image produced would get larger, virtual, and upright. The image distance would increase, and the image would appear farther away from the lens compared to the object.
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.
What ray is parallel to the axis of a concave lens?
A ray parallel to the axis of a concave lens will refract through the lens and appear to have come from the focal point on the same side as the object.
When an object is is viewed through a convex lens held in front of a concave lens does the object get bigger or smaller?
When an object is viewed through a convex lens held in front of a concave lens, the object can appear either smaller or larger depending on the specific characteristics of the lenses and their relative positions. The combination of lenses can either magnify or reduce the size of the object.
How does the lens of a light work?
Each concave lens bends light to make the object appear larger
Where does the image of a concave lens always appear?
The image formed by a concave lens is always virtual, upright, and located on the same side as the object. It is also diminished in size compared to the object.
What does a virtual image of a object look like through a concave lens?
A virtual image of an object through a concave lens is always upright, reduced in size, and appears on the same side of the lens as the object. Its location depends on the distance of the object from the lens and the focal length of the lens.
How does the lens of a light microscope worke?
Each concave lens bends light to make the object appear larger
What happens to an object if you move it closer to a concave lens?
If you move an object closer to a concave lens, the image produced would get larger, virtual, and upright. The image distance would increase, and the image would appear farther away from the lens compared to the object.
What is the attitude and approximate size of an image when an object is close to and far from a concave lens?
When an object is close to a concave lens, the image will appear virtual, upright, and magnified. When the object is far from the concave lens, the image will be real, inverted, and smaller in size.
What image does a concave lens produce?
real or virtual imagevirtual,erect anddiminished
An object is placed 4 cm in front of a concave mirror with a focal point of 1 cm describe the image that is formed?
A concave lens will appear!
What is the other term for concave lens?
The other term for a concave lens is a diverging lens. This type of lens causes light rays to spread out, making objects appear smaller and farther away when viewed through it.
