Yes. Nd converging lens = concave lens
The three kinds of mirrors are plane mirrors, concave mirrors, and convex mirrors. Plane mirrors reflect a virtual image that is upright and the same size as the object. Concave mirrors reflect both real and virtual images, depending on the object's position relative to the mirror. Convex mirrors always reflect virtual images that are smaller and upright.
Diverging mirrors and lenses always produce virtual images that are upright and reduced in size. These images are located on the same side as the object being observed.
Concave Vs Convex 1. Mercury coating will be made on the convex side but here on concave side. So reflecting portion would become concave and here convex 2. Both real and virtual images but only virtual images 3. Both diminished, enlarged and even same size images formed but only diminished. 4. Both inverted (real) and erect (virtual) images but only erect images. 5. Used as shaving mirror and in telescopes but used as rear view mirror
Convex mirrors used as side mirrors in cars provide a wider field of view, allowing drivers to see more of their surroundings. This helps to reduce blind spots and improve overall safety while driving. Concave mirrors would distort the image and plane mirrors would not provide the same wide-angle view.
Concave and convex mirrors are called spherical mirrors because their reflecting surfaces are part of a sphere. This means that if the mirror were extended to form a complete spherical shape, it would have the same radius of curvature for all points on its surface.
The three kinds of mirrors are plane mirrors, concave mirrors, and convex mirrors. Plane mirrors reflect a virtual image that is upright and the same size as the object. Concave mirrors reflect both real and virtual images, depending on the object's position relative to the mirror. Convex mirrors always reflect virtual images that are smaller and upright.
Diverging mirrors and lenses always produce virtual images that are upright and reduced in size. These images are located on the same side as the object being observed.
Concave Vs Convex 1. Mercury coating will be made on the convex side but here on concave side. So reflecting portion would become concave and here convex 2. Both real and virtual images but only virtual images 3. Both diminished, enlarged and even same size images formed but only diminished. 4. Both inverted (real) and erect (virtual) images but only erect images. 5. Used as shaving mirror and in telescopes but used as rear view mirror
Convex mirrors used as side mirrors in cars provide a wider field of view, allowing drivers to see more of their surroundings. This helps to reduce blind spots and improve overall safety while driving. Concave mirrors would distort the image and plane mirrors would not provide the same wide-angle view.
Concave and convex mirrors are called spherical mirrors because their reflecting surfaces are part of a sphere. This means that if the mirror were extended to form a complete spherical shape, it would have the same radius of curvature for all points on its surface.
Concave and convex mirrors both reflect light to form images. They can both produce real and virtual images depending on the object's position relative to the mirror. Additionally, both mirrors obey the laws of reflection.
Flat mirrors provide a clear, undistorted reflection of objects with the same size and orientation. Concave mirrors converge light rays to a focal point, creating real or virtual images depending on the object location. Convex mirrors diverge light rays, producing virtual, upright, and smaller images.
No, a spherical mirror is a general term that refers to a mirror with a curved surface, while a concave mirror specifically has a reflective surface that curves inward, like the inside of a sphere. Concave mirrors can be one type of spherical mirror, along with convex mirrors.
A convex lens will behave as a diverging lens when an object is placed closer to the lens than its focal length. In this case, the light rays will diverge instead of converging, leading to a virtual image formed on the same side as the object.
A diverging lens. In this case, the object distance will be equal to the image distance but with opposite sign.
Convex means rounded or curved like the exterior of a circle or sphere. Also called as fish eye or diverging mirror. The mirror coating of the concave mirror is on the outside of the spherical surface. In concave mirrors, the center of curvature and the reflecting surface fall on the same side of the mirror.
Mirrors, such as plane mirrors, reflect light rays back in the same direction. Lenses, on the other hand, refract light rays by bending them as they pass through, converging or diverging them depending on the shape of the lens. Both mirrors and lenses can alter the path of light rays to create images.