Apertures example sentences

"Apertures" Example Sentences

1. The camera has multiple apertures that allow variable depths of field.
2. The lenses contain adjustable apertures that control the amount of light entering the camera.
3. Smaller apertures result in greater depth of field while larger apertures have a shallower depth of field.
4. The dual apertures allow the system to capture both wide and long range images.
5. The hood design blocks unwanted stray light from entering through the lens apertures.
6. The variable apertures on this lens enable creative shallow depth of field images.
7. The adjustable apertures can control how much light passes through the optical system.
8. The high speed apertures enable the photographer to capture action shots in low light.
9. The largest aperture on this lens is f/1.4, which allows shallow depth of field images.
10. The smallest aperture on this lens is f/22, which provides greater depth of field.
11. The lens has 9 circular diaphragm blades that shape the apertures.
12. The variable apertures range from f/1.4 to f/22 on this professional lens.
13. Photographers often vary the aperture to adjust depth of field in their images.
14. Dust can accumulate on the lens apertures over time and degrade image quality.
15. The setup includes interchangeable aperture plates that mount to the front of the lens.
16. The adjustable apertures are designed to smoothly transition from one setting to another.
17. The various apertures provide different picture styles by altering depth of field.
18. You'll want to clean the lens apertures with camera-grade products to avoid scratches.
19. The protective lens hood shields the lens apertures from flare caused by stray light.
20. The imaging system uses a rotating aperture iris to control the amount of incident light.
21. The scientists studied plant specimens through the microscope's variable apertures.
22. They tuned the antenna apertures to receive signals within a specific frequency range.
23. The adjustable optical apertures provide sensitivity and resolution in photometry tests.
24. The robot's visual sensors contain variable circular apertures engineered for versatility.
25. Astronomers observed faraway galaxies through the telescope's complex aperture system.
26. The optical array uses precision aperture technology to filter different wavelengths.
27. The 3D printer nozzle has interchangeable apertures ranging from 0.2 to 0.8 millimeters.
28. The adjustable apertures provide a wide functional focal range for the scanning device.
29. The window apertures are designed to optimize thermal, UV and impact protection.
30. The diffraction grating uses a circular aperture to create distinct spectral lines.
31. In photography, aperture refers to the size of the lens opening that controls the amount of light.
32. Large apertures result in shallow depth of field while smaller apertures produce deeper focus zones.
33. Aperture settings are typically labeled f-stops, from f/1.4 to f/22, representing how open or closed the aperture is.
34. When an object is in focus, the aperture produces a small circle of confusion that represents acceptable image sharpness.
35. As aperture openings decrease in size, more of the frame will be in acceptable focus, increasing depth of field.
36. Common aperture settings for portraits are f/2.8 or f/1.4 to create a shallow depth of field that isolates the subject.
37. Low aperture f-stops like f/1.4 allow the maximum amount of light into the lens to capture images in low light conditions.
38. Apertures are adjustable mechanical diaphragms that control the amount of light striking the camera sensor or film.
39. The aperture ring needs to spin smoothly without catching or sticking which can induce camera shake during exposures.
40. Aperture settings that are too low risk overexposed highlights due to a large amount of light striking the sensor.
41. The aperture blades create the shape of the opening and need to be precisely aligned to avoid light leakage or vignetting.
42. Aperture mechanisms incorporate seals and gaskets to prevent dust and debris from marring the images over time.
43. An out-of-spec aperture mechanism can result in inconsistent exposures, blurry images, and incorrect depth of field renditions.
44. Focusing at wide apertures is more critical since the depth of field is reduced compared to smaller aperture settings.
45. Apertures in electron microscopes create a probe to scan specimens at high levels of magnification and resolution.
46. Astronomy detectors use precision-engineered apertures to filter specific wavelengths of light from celestial objects.
47. Optical filters and gratings often contain circular apertures of varying sizes to control quantities of transmitted light.
48. Telescopes contain complex aperture systems with multiple movable elements to optimize their performance for observations.
49. Adjustable apertures in laboratory devices like photometers and spectrometers allow versatility in measuring light sources.
50. Users of 3D printers can select from various aperture sizes to control resolution and surface finish of printed objects.
51. Apertures serve as entrance and exit ports for mediums like light, air, and liquids in an array of mechanical devices.
52. Graduated neutral density filters come with adjustable apertures to balance exposure levels in high contrast scenes.
53. The precision of aperture mechanisms determines how accurately light can be filtered and controlled in optical instruments.
54. Window apertures in buildings, vehicles and structures must precisely match desired specifications for durability and insulation.
55. Narrow aperture slots in mechanical systems serve as passages and channels while restricting fluid and gas flows.
56. Biological tissue samples are often stained and viewed through the microscope's adjustable apertures at high magnifications.
57. Antenna apertures are designed to tune into specific frequency bands for radio, radar and microwave applications.
58. Electrical contacts use precision apertures to ensure tight tolerances that maintain high conductivity.
59. Some adjustable aperture devices utilize iris diaphragm mechanisms to adjust the size and shape of the opening.
60. Automated aperture mechanisms incorporate sensors and actuators for remote control and precision tracking applications.

Common Phases

1. Vary the apertures
2. Adjust the apertures
3. Control the apertures
4. Larger/Wider apertures
5. Smaller/Narrower apertures
6. Clean the apertures
7. Shield the apertures
8. Filter through the apertures
9. Observe through the apertures
10. Transmit through the apertures