0
Why should the object be positioned between the focal length point and the convex lens to be magnified?
Placing the object between the focal length point and the convex lens creates a virtual and magnified image. This positioning allows the lens to form a bigger image that is right-side-up compared to the original object. The greater the distance between the object and the lens, the larger the magnification.
What else can I help you with?
When object is positioned at more than twice the focal length of a convex lens what are the properties of its image?
When the object is positioned at more than twice the focal length of a convex lens, the image formed is real, inverted, and smaller in size. The image is formed between the focal point and the optical center of the lens.
Can convex lens have real and magnified image?
Yes it is possible. When the object is kept in between F and 2F, then an enlarged real but inverted image is got beyond 2F on the other side of the lens.
What is the nature of image formed by a convex lens?
A convex lens forms a real or virtual, inverted or upright image, depending on the object distance and the focal length of the lens. The image can be either magnified or reduced in size compared to the object.
Where would you put a convex lens to throw an enlarged image of lighted bulb on a screen?
You would place the convex lens between the lighted bulb and the screen, with the lighted bulb positioned beyond the lens's focal length. This arrangement will create an enlarged image of the lighted bulb on the screen due to the converging properties of the convex lens.
What does the image formed by convex lens depend upon?
The image formed by a convex lens depends on the object distance from the lens, the focal length of the lens, and the object size. These factors determine whether the image formed is real or virtual, magnified or diminished, and upright or inverted.
When object is positioned at more than twice the focal length of a convex lens what are the properties of its image?
When the object is positioned at more than twice the focal length of a convex lens, the image formed is real, inverted, and smaller in size. The image is formed between the focal point and the optical center of the lens.
Can convex lens have real and magnified image?
Yes it is possible. When the object is kept in between F and 2F, then an enlarged real but inverted image is got beyond 2F on the other side of the lens.
What is the nature of image formed by a convex lens?
A convex lens forms a real or virtual, inverted or upright image, depending on the object distance and the focal length of the lens. The image can be either magnified or reduced in size compared to the object.
Where would you put a convex lens to throw an enlarged image of lighted bulb on a screen?
You would place the convex lens between the lighted bulb and the screen, with the lighted bulb positioned beyond the lens's focal length. This arrangement will create an enlarged image of the lighted bulb on the screen due to the converging properties of the convex lens.
What does the image formed by convex lens depend upon?
The image formed by a convex lens depends on the object distance from the lens, the focal length of the lens, and the object size. These factors determine whether the image formed is real or virtual, magnified or diminished, and upright or inverted.
Do convex lens make them bigger?
A convex lens can magnify objects when they are placed closer to the lens than their focal length. However, the size of the object itself remains the same. The lens allows you to see the object as if it were larger by converging light rays to create a magnified image.
How would decreasing the focal length affect a convex lens when all else remains the same?
Decreasing the focal length of a convex lens would make the lens more powerful, causing it to bend light rays more strongly. This would result in the image being formed closer to the lens, making it appear larger and more magnified.
when light rays are bent by a convex lens what happens?
When light rays pass through a convex lens, they converge to a focal point on the opposite side of the lens. This causes the image to appear magnified and in an upright position. The amount of bending and the location of the focal point can be determined by the shape and focal length of the lens.
Why the study was under taken of focal length of a convex lens by graphical method?
to determine the focal length of a convex mirror.
A convex lens can produce?
a real or virtual image
What is the difference between a thick convex lens and a thin convex lens?
A thick convex lens has a larger thickness and can bend light rays more than a thin convex lens. This results in a shorter focal length and stronger focusing ability for a thick convex lens compared to a thin convex lens.
What is the difference between the virtual image formed by a convex lens and a concave lens?
The difference is that when virtual image is formed by the concave mirror...it is larger than its original size..but when it is formed by the convex mirror..it is smaller than the original size....
