Yes!
Curved glass that makes things look larger or closer is a magnifying glass.
Changing the focal length of a lens can make an object look closer or farther away than it actually is. By adjusting the focal length, you can manipulate the perspective and depth of field in your images, giving the illusion of objects being closer or farther away than they truly are.
The two lenses on a refracting telescope are typically called the objective lens (at the front of the telescope) and the eyepiece lens (at the back of the telescope). The objective lens gathers and focuses light from distant objects, while the eyepiece lens magnifies the focused image for the viewer.
One end of a reflecting telescope is the big hole pointed at the star. The other end of the reflecting telescope has a lens called an eyepiece.
A reflecting telescope has both an eyepiece lens and a mirror. Light enters the telescope and is reflected off the primary mirror to a secondary mirror, which then directs the light to the eyepiece where it is magnified for viewing.
A magnifying glass is an instrument that makes objects appear closer by using a lens to magnify the image.
== == It is used to magnify/ or make things appear closer?to magnify small objects
there is something in the telescope that helps things appear larger
Convex lens makes objects appear closer and corrects hyperopia (far-sightedness).
Curved glass that makes things look larger or closer is a magnifying glass.
A telescope lens works to magnify distant objects by bending and focusing light rays that enter the lens. This allows the lens to gather more light and bring the image of the distant object into focus, making it appear larger and clearer when viewed through the telescope.
When light travels through the lens of a telescope, the lens refracts the light, causing it to converge to a focal point where the image is formed. The lens magnifies the image, allowing distant objects to appear closer and clearer. This process enables astronomers to observe celestial objects with greater detail and clarity.
True. When you come closer to a distant object with a telescope, the rays of light entering the telescope become less parallel as the object appears closer, and the lens or mirror in the telescope needs to adjust the focal length to focus properly on the object.
Changing the focal length of a lens can make an object look closer or farther away than it actually is. By adjusting the focal length, you can manipulate the perspective and depth of field in your images, giving the illusion of objects being closer or farther away than they truly are.
-- A refracting telescope must have a lens, otherwise it's not a refracting telescope. -- A reflecting telescope can be constructed without any lens, but if you intend to look through it, then you'll use a little lens for the eyepiece.
A magnifying lens bends light rays, causing the image to appear larger when it reaches your eye. This is because the lens can focus the light rays in such a way that the object appears to be closer and bigger than it actually is.
A reflecting telescope is different from a refracting telescope because a reflecting telescope uses a concave lens, a plane mirror, and a convex lens. While a refracting telescope uses two lens.