Can we find the refractive index of a given liquid?

Can we find the refractive index of a given liquid?

A simple method of measuring the refractive indices of transparent liquids is described, in which a watch‐glass serves to give the liquid the form of a plano‐convex lens. By using the image equation, 1/a+1/b=(n−1)(1/R), the refractive index, n, may be determined.

What can we find from Newton’s ring experiment?

(i) The Newton’s ring experiment can be also used to find the wavelength of a monochromatic light. In this case, the radius of curvature of the convex surface of the given lens is supplied or is determined otherwise. By employing sodium light whose mean wavelength is 5893Å, R can be determined from Eqn.

What is the role of radius of curvature of plano-convex lens in the formation of Newton’s ring patterns?

When a plano-convex lens with large radius of curvature is placed on a plane glass plate such that its curved surface faces the glass plate, a wedge air film (of gradually increasing thickness) is formed between the lens and the glass plate.

What is refractive index of a liquid?

14.1. Refractive index is measured by a standard method. It covers transparent and light colored liquids having a refractive index in the range from 1.33 to 1.50. The refractive index is the ratio of light velocity of a specified wavelength in air to its velocity in the substance under evaluation.

How do you calculate refractive index?

How to find the index of refraction

1. Determine the speed of light in the analyzed medium.
2. Divide the speed of light by this value.
3. The obtained value is the refractive index of the medium.
4. You can use this value to calculate the angle of refraction, using our Snell’s law calculator.

Why are the Newton’s rings circular?

The path difference between the reflected ray and incident ray depends upon the thickness of the air gap between lens and the base. As the lens is symmetric along its axis, the thickness is constant along the circumference of a ring of a given radius. Hence, Newton’s rings are circular.

What is the conclusion of Newton’s ring experiment?

Conclusions. The proposed method can obtain the radius data of each order closed circular fringes. Also, it has several other advantages, including ability of good anti-noise, sub-pixel accuracy and high reliability, and easy to in-situ use.

How do you find the radius of curvature of a plano convex lens?

It well known that radius of curvature of a plano convex lens can be determined using Newton’s Rings set up making use of Interference by division of amplitude principle. The general method widely used involves measurement of diameter of several circular dark fringes.

What is the radius of curvature of plano convex lens in Newton’s ring experiment?

Plano-convex lens appears as part of circle of radius R. Here, radius R is known as radius of curvature of plano-convex lens. n = (2Rt − t2). The radius of curvature, R is calculated by spherometer (see fig.

What is the use of Newton rings?

The rings are named after the English 17th-century physicist Sir Isaac Newton, who first investigated them quantitatively. The principle is often used in testing the uniformity of a polished surface by studying the interference pattern the surface makes when placed in contact with a perfectly flat glass surface.

How do you find the refractive index test?

Refractive Index Testing: the General Procedure

1. Place a bright light source behind the refractometer and direct it into the light window.
2. Place a tiny drop of RI fluid on the hemicylinder.
3. Put the gem table-down in the RI liquid (as shown in the illustration) and center it on the hemicylinder.
4. Look through the lens.

How is the refractive index of a liquid determined?

To find the refractive index of liquid: The experiment is performed when there is an air film between the plano-convex lens and the optically plane glass plate.The diametre of the mth and the (m+p)th dark rings are determined with the help of a travelling microscope.

How to read the refractive index of a ring?

Focus the microscope to view the rings clearly. Fix the cross-wire on 20 th ring either from right or left of the centre dark ring and take the readings . Move the crosswire and take the reading of 18 th ,16 th ………..2 nd ring.

How can you see Newton’s rings in a microscope?

Newton’s rings are seen using a long focus microscope, focussed on the air fil. The cross-wire of the microscope is made tangential to the 20 th ring on the left side of the centre. The readings of the main scale and vernier scale of the microscope are noted.

How can I see variations in Newton’s rings?

The variation in the rings can be seen when the medium,wavelength of light or the radius of the lens changes. Click on the “light on” button. Select the lens of desirable radius. Adjust the microscope position to view the Newton rings. Focus the microscope to view the rings clearly.