If parallel rays (for example sun rays witch are almost parallel) falls on concave mirror, they are gathered at a point, where maximum heat can be generated and it is very small point,witch is called real focus. As we can take it on screen, it is called real focus.
A concave mirror bends light inwards towards a central focal point. This type of mirror can focus light rays to create a real or virtual image, depending on the distance between the object and the mirror.
A concave mirror is a reflective surface that curves inward like the inside of a bowl. It can reflect and focus light to create real or virtual images depending on the object's position relative to the mirror's focal point. Concave mirrors are often used in reflecting telescopes and cosmetic mirrors.
A concave mirror will tend to "focus" light to some degree, depending on the curvature of the mirror. A parabolic mirror will bring reflected light to a sharp focus, and telescopes use this type of curve for the shape of their reflective surface. And for exactly the reasons you think they do. Want links? You got 'em....
A concave mirror can produce both real and virtual images depending on the object's position relative to the mirror's focal point. When the object is placed beyond the focal point, a real, inverted image is formed. If the object is located between the focal point and the mirror, a virtual, upright image is produced. Concave mirrors are commonly used in applications like makeup mirrors and satellite dishes due to their ability to focus light.
concave mirror shows the image real and magnified........when a dentist uses a concave mirror, he/she places the mirror such that the teeth falls on the focus of the mirror due to which the wound can be easily detected and can be treated as per its treatment
If parallel rays (for example sun rays witch are almost parallel) falls on concave mirror, they are gathered at a point, where maximum heat can be generated and it is very small point,witch is called real focus. As we can take it on screen, it is called real focus.
The object should be placed farther than the focal point of the concave mirror along the principal axis. This will result in a real inverted image that is larger than the object and located beyond the center of curvature of the mirror.
An inverted and real image is formed by an object placed beyond the center of curvature on the principal axis of a concave mirror. The size of the image will be smaller than the object.
To generate a real image of an object using a concave mirror, place the object farther from the mirror than its focal point. The real image will be formed on the same side of the mirror as the object, and it will be inverted and magnified. Adjust the distance between the object and the mirror to focus the image at the desired location.
A concave mirror is a converging mirror used in microscopes and telescopes. Characteristics include forming real and inverted and diminished images when an object is placed beyond the center of curvature or real, inverted and enlarged image when the object is placed between the center of curvature and focus.
A concave mirror bends light inwards towards a central focal point. This type of mirror can focus light rays to create a real or virtual image, depending on the distance between the object and the mirror.
Concave mirrors are used in makeup mirrors, headlights of cars, reflecting telescopes, and solar concentrators. They can focus light to produce real or virtual images depending on the object's position relative to the mirror.
A concave mirror is a reflective surface that curves inward like the inside of a bowl. It can reflect and focus light to create real or virtual images depending on the object's position relative to the mirror's focal point. Concave mirrors are often used in reflecting telescopes and cosmetic mirrors.
A concave mirror can create a real image.
there is an imaginary point in front of the concave mirror, called the focal point or focus, which is half the length of the radius of the sphere of which the mirror was a part of(radius of curvature). usually an object if seen in between the mirror and focus gets magnified, beyond the focus, it gets inverted and reduced.
It is called a concave mirror. Concave mirrors curve inward and have reflective surfaces that cave inwards. They can be used to focus light to create real or virtual images.