Cold-core rings are typically characterized by colder water at their center, creating a density gradient that causes the surface to dip inward, resulting in a concave shape. Conversely, warm-core rings have warmer water at their center, leading to a buoyancy effect that causes the surface to bulge outward, creating a convex shape. These formations are influenced by the thermohaline properties of the water and the dynamics of ocean currents. Thus, the concave and convex shapes reflect the underlying temperature and density distributions within the rings.
When a plano-convex lens with its convex surface is placed on a plane glass sheet, an air film of gradually increasing thickness outward is formed between the lens and the sheet. The thickness of film at the point of contact is zero. If monochromatic light is allowed to fall normally on the lens, and the film is viewed in reflected light, alternate bright and dark concentric rings are seen around the point of contact. These rings were first discovered by Newton, that's why they are called NEWTON'S RINGS .experimental setupPattern of Newton's RingWHY NEWTON'S RINGS ARE FORMEDNewton's rings are formed due to interference between the light waves reflected from the top and bottom surfaces of the air film formed between the lens and glass sheet. EXPLANATIONThe phenomenon of the formation of theNewton's rings can be explained on the basis of wave theory of light.An air film of varying thickness is formed between the lens and the glass sheet.When a light ray is incident on the upper surface of the lens, it is reflected as well as refracted.When the refracted ray strikes the glass sheet, it undergo a phase change of 180O on reflection.Interference occurs between the two waves which interfere constructively if path difference between them is (m+1/2)land destructively if path difference between them is mlproducing alternate bright and dark rings.
No, Saturn is not the only planet with rings; other gas giants in our solar system, such as Jupiter, Uranus, and Neptune, also have ring systems. However, Saturn's rings are the most prominent and extensive, composed mainly of ice particles, with some rock debris. The rings of the other gas giants are less visible and less substantial compared to Saturn's.
It is due to the reflection of light between two surfaces, which are the spherical surface and its adjacent flat surface. The light frequency depends on the height of the air column between both surfaces. When these points are equal the light reflects from both creating equal brightness. When light is bent, it is reflected by the flat surface and creates dark and bright fringes.
jupiters rings are bigger than Saturns.
Mercury, Venus, and Mars do not have rings. Pluto does not have large, visible rings like Saturn, but it does have a faint ring system consisting of multiple smaller rings. Earth does not have any rings.
rings start collapsing to the centre
Since a plano-convex lens is being used in Newton's Rings .. that's why=the fringes are seen circular from above, on the glass plate.=
newtons ring is formed due to the consequtive circle of different radius of bright and dark in which the centre is dark
A plano-convex lens is used in Newton's rings experiment because the convex surface of the lens helps to create a well-defined thin air gap when placed against a flat glass plate. This air gap is where the interference pattern, known as Newton's rings, forms when illuminated with monochromatic light. The curvature of the convex surface of the lens also helps to distribute the pressure evenly, ensuring a better contact between the lens and the glass plate.
There's nothing you can explain it with. Did you know Saturn, Neptune and Uranus all have rings? It's just made out of dust, asteroids and gases. It's not glass!
they are formed at the point of contact of lens and glass plate
newtons rings
Newton's rings are formed due to the interference of light waves reflected between a plano-convex lens and a flat glass surface in contact with each other. This interference creates alternating dark and bright rings, with the center being a dark spot. The varying thickness of the air gap between the lens and the glass surface causes the light waves to interfere constructively and destructively, resulting in the pattern of rings.
The rings were first seen by Galileo and were confirmed by Huygens. Scientific advancements in the 80’s allowed for the Voyager to get better images of the rings. By 2006, the Cassini probe showed faint rings never seen before.
When a plano-convex lens with its convex surface is placed on a plane glass sheet, an air film of gradually increasing thickness outward is formed between the lens and the sheet. The thickness of film at the point of contact is zero. If monochromatic light is allowed to fall normally on the lens, and the film is viewed in reflected light, alternate bright and dark concentric rings are seen around the point of contact. These rings were first discovered by Newton, that's why they are called NEWTON'S RINGS .experimental setupPattern of Newton's RingWHY NEWTON'S RINGS ARE FORMEDNewton's rings are formed due to interference between the light waves reflected from the top and bottom surfaces of the air film formed between the lens and glass sheet. EXPLANATIONThe phenomenon of the formation of theNewton's rings can be explained on the basis of wave theory of light.An air film of varying thickness is formed between the lens and the glass sheet.When a light ray is incident on the upper surface of the lens, it is reflected as well as refracted.When the refracted ray strikes the glass sheet, it undergo a phase change of 180O on reflection.Interference occurs between the two waves which interfere constructively if path difference between them is (m+1/2)land destructively if path difference between them is mlproducing alternate bright and dark rings.
When a plano-convex lens with its convex surface is placed on a plane glass sheet, an air film of gradually increasing thickness outward is formed between the lens and the sheet. The thickness of film at the point of contact is zero. If monochromatic light is allowed to fall normally on the lens, and the film is viewed in reflected light, alternate bright and dark concentric rings are seen around the point of contact. These rings were first discovered by Newton, that's why they are called NEWTON'S RINGS .experimental setupPattern of Newton's RingWHY NEWTON'S RINGS ARE FORMEDNewton's rings are formed due to interference between the light waves reflected from the top and bottom surfaces of the air film formed between the lens and glass sheet. EXPLANATIONThe phenomenon of the formation of theNewton's rings can be explained on the basis of wave theory of light.An air film of varying thickness is formed between the lens and the glass sheet.When a light ray is incident on the upper surface of the lens, it is reflected as well as refracted.When the refracted ray strikes the glass sheet, it undergo a phase change of 180O on reflection.Interference occurs between the two waves which interfere constructively if path difference between them is (m+1/2)land destructively if path difference between them is mlproducing alternate bright and dark rings.
Cornu's fringes are hyperbolic because they are formed due to the interference of light waves that are not perfectly spherical when they meet at an angle. Newton's rings are circular because they are formed by the interference of light waves that are spherical in shape due to reflection between a flat glass surface and a convex lens.