Refraction example sentences

"Refraction" Example Sentences

1. The light refracted through the prism, splitting into spectrum of colors.
2. The passage describes how refraction causes mirages on hot asphalt roads.
3. The scientist was studying the refractive indices of different materials.
4. The lens works by refracting light rays to focus them on the retina.
5. The refractive error in his eye required him to wear corrective lenses.
6. Snell's Law of refraction still holds true in modern physics.
7. The degree of refraction depends on the density of the medium.
8. The phenomenon of total internal reflection involves no refraction.
9. We observed rainbows forming due to refraction in water droplets.
10. When light transitions between media, refraction occurs.
11. Refraction can bend light so it follows a curved path.
12. The textbook explains how refraction works at the molecular level.
13. Refraction enables lenses and prisms to manipulate light beams.
14. You will need to calculate the index of refraction for each solution.
15. As the rays enter the prism, they undergo refraction.
16. Critical angle tests help determine the refractive index of glass.
17. Refraction is a key concept in geometrical optics.
18. Due to refraction, objects appear closer than their actual distance.
19. The gemologist examined the stones to determine their refractive properties.
20. The bending of light due to refraction can form real images.
21. Refraction causes stars to appear out of position.
22. They studied how refractive index affects the speed of light in a medium.
23. Light rays change direction upon refraction through a lens.
24. Atmospheric refraction affects astronomical measurements.
25. The scientists explored the role of refraction in generating rainbows.
26. The formula for calculating refractive index uses refraction angle data.
27. Spectacles work by correcting vision problems due to refraction errors.
28. The math problem tests your knowledge of Snell's Law of refraction.
29. Reflection and refraction occur at the interface between two media.
30. The microscope adjusts using optical compensation for refractive distortion.
31. As the sun appeared to rise, we saw aer refraction in action.
32. The image of the stick appeared bent due to the water's refractive power.
33. The scientist studied the refraction of light in an attempt to discover new physics.
34. Colors form through selective refraction of light components.
35. The team had to calibrate the device to account for refractive errors.
36. The lecturer demonstrated techniques for calculating refraction.
37. The polished diamond displayed colorful refraction effects.
38. We studied how refraction causes the apparent bending of an object.
39. Prisms work by selectively refracting different wavelengths of light.
40. The intensity of refraction varies with incident angle and materials.
41. The experiment aimed to determine the refractive index of water.
42. Refraction results from a change in the velocity of light.
43. Double refraction occurs when light splits into two beams.
44. Chromatic aberration results from unequal refraction of different wavelengths.
45. To measure refraction, we used an optical bench and ray box.
46. The reflection pool created an illusion of size through refraction.
47. The meter stick seemed bent due to refraction in the beaker.
48. Sediment layers were visible due to refractive differences.
49. Abbe refractometers measure refractive indices precisely.
50. The behavior of light is explained through the wave theory of refraction.
51. Dramatic refraction effects occur at Sunset.
52. Aberrations arise from imperfections in refracting surfaces.
53. The microscope corrects for refractive index mismatch.
54. The angles of incidence and refraction were measured and recorded.
55. The glass rod demonstrated the refraction of light through a prism.
56. The paper describes experiments on selective refraction through prisms.
57. Density variations cause differences in refractive index.
58. Dispersion results from wavelength-dependent differences in refraction.
59. The clinician tested the patient's eyes for refractive errors.
60. Their aim was to create new optical elements through nanostructured refraction.

Common Phases

1. The refraction of light through water causes objects underwater to appear closer than they actually are.
2. The bending of light as it passes through the atmosphere causes objects in the sky to appear higher than they actually are, known as atmospheric refraction.
3. When light moves from one medium to another with a different density, refraction occurs as the light changes speed and direction.
4. Astronomers must take atmospheric refraction into account when precisely measuring the positions of objects in the sky.
5. Refraction is an important optical phenomenon that allows us to see objects by bending light rays.
6. Snell's Law describes the mathematical relationship between refraction angles when light moves between two different mediums.
7. As light enters a denser medium from a less dense one, it bends toward the normal line, and the opposite occurs when light exits the denser medium.
8. The refractive index of a medium depends on how much it slows light compared to the speed of light in a vacuum.
9. Total internal reflection occurs when light strikes a denser medium at a shallow enough angle that it cannot refract into the new medium.
10. Prisms bend and separate light through refraction, allowing decomposition of white light into a spectrum of colors.
11. Refraction in the cornea and lens of the eye allows humans to focus light on the retina for clear vision.
12. The amount of refraction depends on the wavelength of the light, causing dispersion and color separation.
13. Rainbows form when light refracts through water droplets in the atmosphere.
14. Diamonds and glass exhibit high refractive indices due to their dense molecular structures.
15. Air causes less refractive deviation than glass or water because of its lower density.
16. Loupe magnifiers rely on refraction through a convex lens for magnification.
17. Refraction diagnostics are used in medical imaging, showing how light refracts through different tissues.
18. Lighthouses use refractors to bend and focus light beams, projecting them out over water.
19. Holograms are created through interference and diffraction of light, requiring an understanding of refraction.
20. Double refraction occurs when light refracts through anisotropic crystals, splitting into two separate beams.
21. 2 Light refracts through the lens, allowing the microscope to magnify objects.
22. As light leaves the denser medium of glass and enters air, it refracts and bends away from the normal line.
23. The refraction of light through a prism splits white light into a spectrum of colors.
24. Airplanes appear to float above the runway due to atmospheric refraction of light.
25. The amount of refraction varies for different wavelengths of light, causing them to spread out in a spectrum.
26. The perimeter of an underwater pool appears bent upward due to the refraction of light through the water-air interface.
27. Double refraction in Iceland spar separates incoming light into two separate beams called fast and slow rays.
28. pH indicators change color due to variation in refraction caused by changes in molecular structure.
29. The accuracy of astronomical measurements depends on accounting for the effects of atmospheric refraction.
30. A transparent sphere filled with water exhibits total internal reflection when light refracts through the two mediums.
31. Refraction diagnostics are based on measuring how light refracts through different regions of the eye.
32. The human eye is able to focus on objects at various distances because of refraction within the lens.
33. The "bending" of light as it passes from one medium into another of different density is called refraction.
34. Lens makers use refraction calculations to determine the curves required to focus light in a specific way.
35. Refraction errors like myopia and hyperopia occur due to abnormal bending of light in the eye.
36. Glass fibers transmit light using total internal reflection, trapping light through refraction.
37. An understanding of refraction is required for designing optical instruments like microscopes and binoculars.
38. Abbe refractometers measure the refractive index of liquids based on how light refracts through a sample.
39. Invisible ultraviolet light can be observed through fluorescence that occurs due to refraction through glass.
40. Photographs of land appearing curved at the edges are actually rectilinear objects distorted through aerial refraction.
41. The image in a periscope is inverted due to double refraction through the system of angled mirrors.
42. When light refracts through particles in the atmosphere, halos and glory phenomena are produced around the sun or moon.
43. An optometrist evaluated a patient's eye by measuring the degree of spherical and cylindrical refraction.
44. Refraction of light through the tear layer on the surface of the eye helps produce our color vision.
45. Geometric optical calculations require understanding reflection, refraction, and dispersion of light.
46. Optical designers use refracted and reflected light rays to determine lens shapes and angles.
47. The chromatic aberrations in an optical system can be minimized by correcting for dispersion through refraction.
48. Atmospheric refraction near the horizon increases the apparent size of the sun and moon.
49. Visible light made invisible by total internal reflection can still refract through a crystal and exit the other side.
50. Refracted light beams may superimpose and interfere with one another, creating interference patterns.
51. Spectacles use spherical and cylindrical lenses to correct for refractive errors in vision.
52. Snell's window is a piece of glass used during refraction measurements to correct for air refractive index changes.
53. When light refracts through an anisotropic crystal, it splits into two separate beams called extraordinary and ordinary rays.
54. Fiber optic cables use total internal reflection rather than refraction to transmit light signals over long distances.
55. Infrared and ultraviolet light refract differently compared to visible light, affecting materials' refractive indices.
56. The mirage effect occurs due to refraction of light through layers of air at different temperatures.
57. Double refraction allows analysis of the fast and slow axes within birefringent materials like crystals and liquid crystals.
58. Refractometers determine sugar content by measuring how much light refracts through a solution.
59. Vaseline glass exhibits fluorescence due to dispersion and refraction that traps ultraviolet light within the glass.
60. Refraction can produce a magnified virtual image even when no real image is formed.