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They are also formed in Photography enlargers and are called, somewhat inaccurately, Newton"s rings. The explanation can be found in Newtonian physics but Light is an energy form and is not effected by gravity, except in the case of a collapsed neutron star or Black Hole! Light goes in a straight line, is not affected by Gravity.
What else can I help you with?
What did Albert Michelson do?
He is the inventorof the Michelson interferometer.
Why do you get circular fringes in fabry perot experiment?
In michelson interferometer the mirros are perpendicular and because of our eye viewed direction and angle theta the fringes are circular
Why circular fringes are obtained in michelson interferometer?
Circular fringes are obtained in a Michelson interferometer due to the spherical wavefronts produced by the point light source. The light waves that interfere come from a point source, creating a series of concentric circles of constructive and destructive interference known as circular fringes. This phenomenon occurs as the waves reflect off the two mirrors in the interferometer and interfere with each other.
What is the purpose of compensating plate in michelson interferometer?
a compensating plate is used in michelson interferometer to compensate the additional path difference of ray 1
Why circular rings form in michelson interferometer?
They are also formed in photography enlargers and are called, somewhat inaccurately, Newton"s rings. The explanation can be found in Newtonian physics but Light is an energy form and is not effected by gravity, except in the case of a collapsed neutron star or Black Hole! Light goes in a straight line, is not affected by Gravity.
Why does the michelson interferometer experiment produce circular fringe patterns?
In michelson interferometer experiment, when we see the fringe pattern ,it depends on the angle in which our eye see it. This is due to the angle theta between the eye and and fringe pattern. The second reason is the factor d, the distance between the mirrors M1 amd M2.
What are the applications of Michelson interferometer?
to measure wavelength and other wave characters
What is the significance of the fringe pattern observed in a Michelson interferometer?
The fringe pattern observed in a Michelson interferometer is significant because it provides information about the interference of light waves, which can be used to measure small distances, test optical components, and study the properties of light.
What are the uses of michelson's interferometer?
Michelson's interferometer is used in interferometry to make precise measurements of distance, wavelength, and index of refraction. It is also used in the field of spectroscopy to analyze the interference patterns of light to determine the properties of materials. Additionally, it is used in the detection of gravitational waves.
What are some applications of the Michelson Interferometer?
The Michelson Interferometer is used to create an interference pattern by splitting a beam of light into two paths. This device has several important scientific applications for experimentation.
How would you construct an acoustical Michelson interferometer to measure sound wavelengths?
The Michelson device operates on Light waves. It is not a sound apparatus. One cannot use a telescope to analyze sounds, right?
What is an example of interferometer?
An example of an interferometer is the Michelson interferometer, which is commonly used in the field of optics to measure the wavelength of light, test optical components, and determine refractive indices of materials. It works by splitting a light beam into two paths, recombining them, and measuring interference patterns to extract information about the light.
