Telescopes example sentences






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"Telescopes" Example Sentences

1. But although the argument from gratings is instructive and convenient in some respects, its use has tended to obscure the essential unity of the principle of the limit of resolution whether applied to telescopes or microscopes.
2. Of the magnifying power of telescopes, for the rays emerging from the eye-piece when adjusted for distinct vision to be parallel.
3. Until Newton's discovery of the different refrangibility of light of different colours, it was generally supposed that object-glasses of telescopes were subject to no other errors than those which arose from the spherical figure of their surfaces, and the efforts of opticians were chiefly directed to the construction of lenses of other forms of curvature.
4. He was well aware of the failures of all attempts to perfect telescopes by employing lenses of various forms of curvature, and accordingly proposed the form of reflecting telescope which bears his name.
5. (2) Telescopes for General P urposes.
6. Before astronomical telescopes were mounted parallactically, the measurement of position angles was seldom attempted.
7. As the powers of the telescope were gradually developed, it was found that the finest hairs or filaments of silk, or the thinnest silver wires that could be drawn, were much too thick for the refined purposes of the astronomer, as p p they entirely obliterated the image of a star in the more powerful telescopes.
8. Even before this, however, he had shown a strong inclination for natural science, and this had been fostered by his intimacy with a "self-taught philosopher, astronomer and mathematician," as Sir Walter Scott called him, of great local fame - James Veitch of Inchbonny, who was particularly skilful in making telescopes.
9. Other important manufactures are automobiles (value, 1905, $4, 2 5 6, 979) and telescopes.
10. The harsher measures which about that time began to be adopted towards his co-religionists in France are usually assigned as the motive of this step. He now devoted himself during six years to the production of lenses of enormous focal distance, which, mounted on high poles, and connected with the eye-piece by means of a cord, formed what were called "aerial telescopes."
11. A Orionis, very close to Orionis, is a very fine multiple star, described by Sir William Herschel as two sets of treble stars; more stars have been revealed by larger telescopes.
12. They range from the 7th magnitude to the smallest object perceptible in large telescopes.
13. It may be fixed at the end of a tube, of a suitable length to its focal distance, as an object-glass, - the other end of the tube having an eye-glass fitted as usual in astronomical telescopes.
14. No tube was employed, and they were consequently termed aerial telescopes.
15. But, having ascertained by experiment that for all colours of light the angle of incidence is equal to the angle of reflexion, he turned his attention to the construction of reflecting telescopes.
16. He did not attempt the formation of a parabolic figure on account of the probable mechanical difficulties, and he had besides satisfied himself that the chromatic and not the spherical aberration formed the chief faults of previous telescopes.
17. Bradley and Molyneux, having been instructed by Hadley in his methods of polishing specula, succeeded in producing some telescopes of considerable power, one of which had a focal length of 8 ft.; and, Molyneux having communicated these methods to Scarlet and Hearn, two London opticians, the manufacture of telescopes as a matter of business was commenced by them (Smith's Opticks, bk.
18. Born at Edinburgh in 1710 and originally educated for the church, Short attracted the attention of Maclaurin, professor of mathematics at the university, who permitted him about 1732 to make use of his rooms in the college buildings for experiments in the construction of telescopes.
19. In Short's first telescopes the specula were of glass, as suggested by Gregory, but he afterwards used metallic specula only, and succeeded in giving to them true parabolic and elliptic figures.
20. All Short's telescopes were of the Gregorian form, and some of them retain even to the present day their original high polish and sharp definition.
21. The first person who succeeded in making achromatic refracting telescopes seems to have been Chester Moor Hall, a gentleman of Essex.
22. After devoting some time to the inquiry he found that by combining lenses formed of different kinds of glass the effect of the unequal refrangibility of light was corrected, and in 1733 he succeeded in constructing telescopes which exhibited objects free from colour.
23. It was known that, about seven years after the patent for making achromatic object-glasses was granted to Dollond, his claim to the invention was disputed by other instrument-makers, amongst them by a Mr Champness, an instrument-maker of Cornhill, who began to infringe the patent, alleging that John Dollond was not the real inventor, and that such telescopes had been made twentyfive years before the granting of his patent by Mr Moor Hall.
24. The whole history of his researches proves how fully he was aware of the conditions necessary for the attainment of achromatism in refracting telescopes, and he may be well excused if he so long placed implicit reliance on the accuracy of experiments made by so illustrious a philosopher as Newton.
25. The triple object-glass, consisting of a combination of two convex lenses of crown glass with a concave flint lens between them, was introduced in 1765 by Peter, son of John Dollond, and many excellent telescopes of this kind were made by him.
26. We proceed to give an account of the methods and principles of construction of the various kinds of telescopes, and 1 Ayscough was an optician in Ludgate Hill, London.
27. In spite of the improvements in the manufacture of optical glass practically the same crown and flint glasses as used by John Dollond in 1758 for achromatic objectives are still used for all the largest of the modern refracting telescopes.
28. This want of proportion in the dispersion for different regions of the spectrum is called the "irrationality of dispersion"; and it is as a direct consequence of this irrationality, that there exists a secondary spectrum or residual colour dispersion, showing itself at the focus of all such telescopes, and roughly in proportion to their size.
29. The following are the various forms of reflecting telescopes: The Gregorian telescope is represented in fig.
30. The practical difficulty of constructing Gregorian telescopes of good defining quality is very considerable, because if spherical mirrors are employed their aberrations tend to increase each other, and it is extremely difficult to give a true elliptic figure to the necessarily deep concavity of the small speculum.
31. Gregorian telescopes attained great celebrity.
32. Construction of most modern reflecting telescopes.
33. Xliv., February 1857), proposed to employ glass for the specula of telescopes, the reflecting surface of the glass speculum to be covered with silver by Liebig's process.
34. Those silver-on-glass specula are now the rivals of the achromatic telescope, and it is not probable that many telescopes with metal specula will be made in the future.
35. Mounting of Telescopes.
36. The chromatic aberration of the object-glass of one of these telescopes is corrected for photographic rays, and the image formed by it is received on a highly sensitive photographic plate.
37. The peculiar form of the tube is eminently suited for rigid preservation of the relative parallelism of the axes of the two telescopes, so that,;i the image of a certain selected star is retained on the intersection of two wires of the micrometer, by means of the driving clock, aided by small corrections given by the observer in right ascension and declination (required on account of irregularity in the clock movement, error in astronomical adjustment of the polar axis, or changes in the star's apparent place produced by refraction), the image of a star will continue on the same spot of the photographic film during the whole time of exposure.
38. In these telescopes the photographic objectglass has an aperture of 13 in.
39. Both telescopes have the same focal length, viz.
40. Type C. - Many more telescopes have been made of type C than of any other, and this form of mounting is still most generally employed for the mounting of modern refractors.
41. Fraunhofer, Dorpat, 1825), and was an enormous advance upon all previous telescopes for micrometric research.
42. (A figure of the instrument is given in the Oxford Observations for 1850.) About 1850 Thomas Cooke of York began his career as a maker of equatorial telescopes.
43. Telescopes of such dimensions can be conveniently directed to any object by the circles without the observer being under the necessity to climb a special ladder.
44. The leading features of this fine instrument represent those of all Grubb's large telescopes.
45. (I) Telescopes of Moderate Size for Micrometric Research Only.
46. In such large telescopes it becomes a matter of the first importance to provide means of convenient access to the eye-end of the instrument.
47. Type C seems indeed to be the type of mounting most suitable for reflecting telescopes, and this form has been adopted for the 60-in.
48. He has never seen more perfect optical definition in any of the many telescopes he has employed, and certainly never measured a celestial object in such favourable conditions of physical comfort.
49. Doubtless with improved telescopes many more apparent nebulae would be shown to be clusters, but there are certainly many nebulae which are otherwise constituted.
50. We should learn perhaps the distribution and luminosities of the stars within a sphere of radius sixty light years (corresponding to a parallax of about 0.05"), but of the structure of the million-fold greater system of stars, lying be y ond this limit, yet visible in our telescopes, we should learn nothing except by analogy.
51. We therefore conclude that beyond a certain distance there is a thinning out in the distribution of the stars; the stars visible in our telescopes form a universe having a more or less defined boundary; and, if there are other systems of stars unknown to us in the space beyond, they are, as it were, isolated from the universe in which we are.
52. Another line of reasoning indicates that the boundary of the universe is not immeasurably distant, and that the thinning out of the stars is quite perceptible with our telescopes.
53. The star-gauges of the Herschels exhibit a similar result; the Herschels counted the number of stars visible with their powerful telescopes in different regions of the sky, and thus formed comparative estimates of the density of the stars extending to a very high magnitude.
54. As we consider a direction such as SQ farther and farther from the pole the boundary of the universe in that direction becomes more and more remote so that more stars are seen, and finally in the directions SR and SR' in the galactic plane, the boundary is perhaps beyond the limits of our telescopes.
55. James Gregory and Leonhard Euler arrived at the correct view from a false conception of the achromatism of the eye; this was determined by Chester More Hall in 1728, Klingenstierna in 1754 and by Dollond in 1757, who constructed the celebrated achromatic telescopes.
56. His first important contribution to scientific knowledge was the comparison of the merits of the Cassegrainian and Gregorian telescopes, from which (Phil.
57. After explaining his discovery of the composition of white light, he proceeds: " When I understood this, I left off my aforesaid Glass works; for I saw, that the perfection of Telescopes was hitherto limited, not so much for want of glasses truly figured according to the prescriptions of Optick Authors (which all men have hitherto imagined), as because that Light itself is a Heterogeneous mixture of differently refrangible Rays.
58. Nay, I wondered, that seeing the difference of refrangibility was so great, as I found it, Telescopes should arrive to that perfection they are now at."
59. He then points out why " the object-glass of any Telescope cannot collect all the rays which come from one point of an object, so as to make them convene at its focus in less room than in a circular space, whose diameter is the 50th part of the Diameter of its: Aperture: which is an irregularity some hundreds of times greater, than a circularly figured Lens, of so small a section as the Object-glasses of long Telescopes are, would cause by the unfitness of its figure, were Light uniform."
60. After a remark that microscopes seem as capable of improvement as telescopes, he adds: " I shall now proceed to acquaint you with another more notable difformity in its Rays, wherein the Origin of Colour is unfolded: Concerning which I shall lay down the Doctrine first, and then, for its examination, give you an instance or two of the Experiments, as a specimen of the rest.
61. Among them were an elegant solution of the problem to determine the orbit of a comet from three observations, and memoirs on the micrometer and achromatic telescopes.
62. The improvement of telescopes was prosecuted by Christiaan Huygens from 1655, and promptly led to his discoveries of the sixth Saturnian moon, of the true shape of the Saturnian appendages, and of the multiple character of Huygens.
63. William Gascoigne's invention of the filar micrometer and of the adaptation of telescopes to graduated instruments remained submerged for a quarter of a century in consequence of his untimely death at Marston Moor (1644).
64. He, nevertheless, used telescopes to good purpose in his studies of lunar topography, and his designations for the chief mountainchains and " seas " of the moon have never been superseded.
65. The high excellence of the s sle data collected by them was a combined result of their skill, and of the vast improvement in refracting telescopes due to the genius of Joseph Fraunhofer (1787-1826).
66. The first binocular telescope, consisting of two telescopes placed side by side, was.
67. The Capuchin Antonius Maria Schyrlaus (Schyrl) de Rheita (1597-1660) described in 1645 the construction of double terrestrial telescopes.
68. Turning the two parallel telescopes round their common axis.
69. Binocular Instruments for Range-finding.-For measuring purposes binocular telescopes with parallel axes are the only types employed.
70. These telescopes study the afterglow of the burst produced by the cooling material that remain from the original explosion.
71. Image caption: The radio emission contours overlay false color images taken with the Hubble Space Telescopes Advanced Camera for Surveys.
72. Catadioptric telescopes have been used.
73. Newton was led by this reasoning to the erroneous conclusion that telescopes using refracting lenses would always suffer chromatic aberration.
74. Dugout canoe ride at Chitwan It was quite hair-raising getting into these canoes and balancing while clutching haversacks, binoculars and telescopes.
75. Equatorial bulge is readily visible in small telescopes.
76. Gravitate around telescopes and such.
77. Dugout canoe ride at Chitwan It was quite hair-raising getting into these canoes and balancing while clutching haversacks, binoculars and telescopes.
78. The corded version is designed for LX200 and other telescopes that have a power output socket and handset controls for adjusting the reticle illumination.
79. Interferometer network using up to 7 radio telescopes.
80. Such radio interferometers can resolve details far sharper than anything current optical telescopes can see.
81. Neutrino telescopes.
82. Scientific Impact A new window into the Universe opens with the advent of high energy neutrino telescopes.
83. Observatory building houses three larger telescopes used for research projects.
84. However, even with the most powerful modern telescopes, there is only so far you can go with using parallax.
85. Without any stars to give light, it could only be found using radio telescopes.
86. Radio telescopes distributed across the United Kingdom.
87. As befits such a gargantuan structure, one of the largest steerable radio telescopes in the world, its archive is vast.
88. The higher resolution of large radio telescopes can be used to probe the structure of individual molecular clouds.
89. Radio telescopes in the world, its archive is vast.
90. The telescopes were moved after the Second World War to Herstmonceux, where the 26-inch refractor can still be seen today.
91. Like Kuiper, it offers a cheaper alternative to launching space telescopes.
92. Space telescopeace radio telescope, HALCA, works with radio telescopes on the ground to form an interferometer twice as big as Earth.
93. Small sized telescopes will show a dazzling spectacle, a myriad of glimmering stars fused to form a slightly flattened disk.
94. The telescopes would combine infrared light to produce high-resolution spectra of the atmospheres of distant planets.
95. INTRODUCTION GIRMOS is a proposed multiple integral field unit spectrograph for the Gemini telescopes.
96. Because almost all reflecting telescopes produce diffraction spikes, many people are used to seeing them and don't consider them an aberration.
97. Spotter telescopes of between 60mm and 100mm aperture may be used to photograph the Moon simply by holding the camera lens to the eyepiece.
98. Most of the others were discovered in visible light, using ground-based telescopes with adaptive optics.
99. The first of the two Gemini telescopes - Gemini North - saw first light in 1999.
100. The HET is one of the world's largest optical telescopes, with a primary mirror some 11 meters in diameter.
101. The RGAs are mounted in the light path of the two X-ray telescopes with EPIC MOS cameras in their primary focus.
102. When it is further remembered that the earlier telescopes were not provided with the modern slow motions in right ascension and that the Struves,, in their extensive labours among the double stars, used to complete their bisections of the fixed wire by a pressure of the finger on the side of the tube, one is puzzled whether more to wonder at such poor adaptation of means to ends or the patience and skill which, with such means, led to such results.'
103. In telescopes of the best construction and of moderate aperture the performance is not sensibly prejudiced by outstanding aberration, and the limit imposed by the finiteness of the waves of light is practically reached.
104. Ansa, a handle), in astronomy, one of the apparent ends of the rings of Saturn as seen in perspective from the earth: so-called because, in the earlier telescopes, they looked like handles projecting from the planet.
105. C and d are telescopes for reading the position circle p, e the handle for quick motion in position angle, f the slow motion in position angle, g the handle for changing the separation of the segments by acting on the bevel-wheel g' (fig.
106. This enabled the observer to make exposures of any desired length, and, through the cumulative action of light on extremely sensitive surfaces, to obtain permanent accurate pictures of celestial objects so faint as to be completely invisible to the eye, even when aided by the most powerful telescopes.
107. In 1877 he decided to devote one of the telescopes of the observatory to stellar photometry, and after an exhaustive trial of various forms of photometers, he devised the meridian photometer (see Photometry, Stellar), which seemed to be free from most of the sources of error.
108. In diameter when viewing faint objects, we obtain the rule that the minimum magnifying power which can be efficiently employed is five times the diameter of the object-glass expressed in inches.`'- The defects of the Galilean and Kepler telescopes are due to the chromatic and spherical aberration of the simple lenses of which they are composed.
109. In spite of the improvements in themanufacture of optical glass (see Glass) practically the same crown and flint glasses as used by John Dollond in 1758 for achromatic objectives are still used for all the largest of the modern refracting telescopes.
110. Distant that the two perspectives formed by the naked eye are no more distinguished from each other, recourse may be had to binocular telescopes and range-finders; and if the objects be so small that, in order to observe details on them, we must bring our eyes so close to the objects that they cannot accommodate the images, recourse may be had to binocular microscopes and magnifying glasses.
111. Greater success attended the efforts of the Capuchin Cherubin d'Orleans, who flourished at about the same time, and constructed large double telescopes of the Dutch type of high magnification, for use in war, and smaller instruments of lower magnification; these instruments were provided with mechanism for adjusting to the interval between the eyes of the observer (fig.
112. MERLIN is an array of seven radio telescopes distributed across the United Kingdom.
113. A Japanese space radio telescope, HALCA, works with radio telescopes on the ground to form an interferometer twice as big as Earth.
114. Spotter telescopes of between 60mm and 100mm aperture may be used to photograph the Moon simply by holding the camera lens to the eyepiece.
115. The HET is one of the world 's largest optical telescopes, with a primary mirror some 11 meters in diameter.
116. Telescopes come in two basic types: Simple telescopes you buy at a department store and those for the budding amateur, intermediate observer and the professional expert.
117. Department store telescopes are typically bought for children and gifts.
118. The higher-end telescopes usually have strong optics, better casing and sturdier bases.
119. Some telescopes us both lens types and they are called catadioptirics.
120. If you have a high level of commitment then research the high-end telescopes.
121. Intussusception: The bowel telescopes into itself.
122. Brevard CC is also known for operating one of the largest public access telescopes in Florida on the Cocoa campus.
123. The astronomy lectures are particularly popular on the Millennium ships, which have a number of telescopes available for avid stargazers.
124. They're designed to perform at a standard of unrivaled excellence, with their Light Management System that incorporates technology used in NASA telescopes.
125. Intussusception is a condition in which the bowel telescopes into itself like a radio antenna folding up.
126. Low vision aids such as telescopes assist those whose vision cannot be fully corrected with spectacles and contact lenses alone.
127. Visit your local Freecycle group for used microscopes, telescopes, musical instruments, chess boards or other academic materials.
128. Both sites have restrooms, parking (metered on the south side and free on the north), and telescopes.
129. The company offers night vision products, metal detectors, sport watches, knives, bino cameras and telescopes.
130. µcxp6s, small, i tthrpov, a measure), an instrument generally applied to telescopes and microscopes for measuring small angular distances with the former or the dimensions of small objects with the latter.
131. When equatorial mountings for telescopes became more general, no filar micrometer was considered complete which was not fitted with a position circle.'
132. 1893) for large telescopes is shown in fig.
133. The great reflecting telescope at Dorpat was manufactured by him, and so great was the skill he attained in the making of lenses for achromatic telescopes that, in a letter to Sir David Brewster, he expressed his willingness to furnish an achromatic glass of 18 in.
134. It had been supposed that, with the greatly improved telescopes of modern times, contact observations could be made with much greater precision than in 1761 and 1769, yet, for some reason which it is not easy to explain completely, the modern observations were but little better than the older ones.
135. The resolving power of telescopes was investigated also by J.
136. Sighting telescopes were also intro FIG.
137. From 1827 he devoted himself to the improvement of reflecting telescopes; in 1839 he mounted a telescope of 3 ft.
138. The first constructor of reflecting telescopes on a large scale, William Herschel, never published anything about his methods of casting and polishing specula, and he does not appear to have been very successful beyond specula of 18 in.
139. With Professor Pickering's usual comprehensiveness, the inquiry was so arranged as to cover the whole sky; and with four telescopes - two at Cambridge for the northern hemisphere, and two at Arequipa in Peru for the southern - to which a fine 24-in.
140. His name is best known for the improvements he effected in the mirrors of reflecting telescopes and especially in the construction of the microscope.
141. In the best telescopes, whether for theodolite or level, the diaphragm on which the image is formed is made of glass, and the cross hairs are engraved thereon.
142. One of the most important applications of the heliostat is as an adjunct to the newer forms of ' horizontal telescopes (q.v.) and in conjunction with spectroscopic telescopes in observations of eclipses.
143. Foucault invented in 1857 the polarizer which bears his name, and in the succeeding year devised a method of giving to the speculum of reflecting telescopes the form of a spheroid or a paraboloid of revolution.
144. It has been pointed out by Dr Robert Smith, in his Complete System of Opticks, that Bacon imagines some effects of telescopes which cannot be performed by them, and his conclusion is that Bacon never actually looked through a telescope.
145. All the original Dutch telescopes were composed of a convex and a concave lens, and telescopes so constructed do not invert.
146. Telescopes seem to have been made in Holland in considerable numbers soon after the date of their invention, and rapidly found their way over Europe.
147. Knowing the theory of his instrument, and possessed of much practical skill, coupled with unwearied patience, he conquered the difficulties of grinding and polishing the lenses, and soon succeeded in producing telescopes of greatly increased power.
148. The first powerful telescopes of this construction were made by Huygens, after much labour, in which he was assisted by his brother.
149. Cassini discovered Saturn's fifth satellite (Rhea) in 1672 with a telescope of 35 ft., and the third and fourth satellites in 1684 with telescopes made by Campani of looand 136-ft.
150. 1691) and others are said to have made telescopes of from 300 to 600 ft.
151. In these very long telescopes This last power could not be exceeded with advantage in this form of telescope till after the invention of the achromatic objectglass.
152. Huygens contrived some ingenious arrangements for directing such telescopes towards any object visible in the heavens - the focal adjustment and centring of the eyepiece being preserved by a braced rod connecting the objectglass and eye-piece.
153. Telescopes of such great length were naturally difficult to.
154. Fewer telescopes have been made of this than perhaps of any other form of reflector; but in comparatively recent years the Cassegrain has acquired importance from the fact of its adoption for the great Melbourne telescope, and from its employment in the 60-in.
155. An oblong metallic box fitted with pivots, whose bearings are attached to the triangular beams, forms the tube for two parallel telescopes; these are separated throughout their length by a metallic diaphragm.
156. Many inexpensive models described as “entry-level” can actually be more difficult to set up and use than more advanced telescopes (computerized or otherwise) due their poor optics, smaller ...
157. One of astronomy's most famous telescopes, the Arecibo Observatory, is shutting down. And its closure may mark the beginning of the end for giant telescopes.
158. ED places two large-aperture, apochromatic refractor telescopes in perfect alignment next to one another, focusing them through precisely matched eyepieces — conveniently angled at 45 degrees. Your ...
159. Meade Instruments, also known simply as Meade, was founded in 1972 and is one of the world’s largest manufacturers of telescopes, alongside Celestron, Sky-Watcher, Vixen and Orion. A manufacturer of ...
160. Few telescopes will get an emotional response from the general public when it is ultimately announced that they will be decommissioned. In the case of the Arecibo Observatory in Arecibo, Puerto Rico, ...
161. Overlaid on this image are some of the hotspots identified for cosmology telescopes on the moon; few ideal locations for these telescopes exist on the moon, as others conflict with the radio quiet ...
162. How's this for an excellent Amazon Black Friday deal: right now, there's up to 38% off Celestron telescopes, binoculars and spotting scopes. Celestron makes some of the best binoculars and best ...
163. MarketsandR has published the latest research study on Global Alignment telescopes Market 2020 by Manufacturers, Regions, Type and Application, Forecast to 2025 concentrates on a complete ...
164. "Throughout the history of astronomy, telescopes have become more powerful, allowing us to probe sources from successively earlier cosmic times—ever closer to the Big Bang," said professor and ...
165. Radio telescopes are designed to be incredibly sensitive. To quote the legendary astronomer Carl Sagan, “The total amount of energy from outside the solar system ever received by all the radio ...
166. One of the world’s most venerable radio telescopes is on the brink of catastrophe, triggering a frantic race by engineers at the Arecibo Observatory in Puerto Rico to save it after two critical ...
167. In April 2020, one of the bursts was for the first time detected from within our galaxy, the Milky Way, by radio telescopes CHIME and STARE2. The unexpected flare was traced to a previously-known ...
168. Firstly, the planets can be seen using a pair of binoculars or telescopes. The relatively rare alignment of all the planets is happening this week and offers amateur sky gazers a chance to view ...
169. The Southern African Large Telescope is one of the four telescopes operated by the South African Astronomical Observatory. The Southern African Large Telescope is one of the four telescopes operated ...
170. Amazon has a new set of "Epic Daily Deals" today including Lands' End apparel, snack foods, robot vacuums, telescopes, baby pajamas, hair care products from Revlon, Bed Head, Hot Tools and more!
171. By the 1990s, technology advanced far enough to usher in an era of telescopes 8 to 10 meters across (26 to 33 feet), and the same story played out once more. With an essential assist from the 2.4 ...
172. Many of the world’s biggest telescopes have reopened their domes in recent weeks, returning their gazes to the heavens for the first time since the pandemic forced a global shutdown of observational ...
173. Directly discovering these objects with sensitive radio telescopes such as LOFAR is a significant breakthrough because it demonstrates that astronomers can detect objects that are too cold and ...
174. The Parkes Observatory has three telescopes. All have been given new Aboriginal names in respect of the astronomical knowledge of Australia’s original inhabitants, whose stories of creation ...
175. In a thousandth of a second on April 28, a powerful burst of radio waves washed over Earth, lighting up radio telescopes in North America. Now, astronomers have tracked down the source of this ...
176. Two smaller telescopes at CSIRO’s Parkes Observatory also received Wiradjuri names. Wiradjuri Elder Rhonda Towney conducted the naming ceremony, and Elder Dr. Stan Grant AM revealed the ...
177. They are typically extragalactic, meaning they originate outside our galaxy, but on April 28 this year, multiple telescopes detected a bright FRB from the same area within our Milky Way.
178. What telescope should I buy? It’s been a much-Googled question this pandemic according to Sky & Telescope, which reports that telescopes are flying off the shelves. This is great. It means that ...
179. S is here to make the search simpler for you. First, a little primer on telescopes. Simply put, these instruments are categorized into two major optical kinds: reflectors and refractors.
180. According to Anupama, the Chandra telescope “bridged the gap between telescopes in Australia and in the Canary Islands”. Since the Himalayan Chandra opened, in 2000, other telescopes have come ...
181. It makes for one of the easiest deep sky objects to see with small telescopes thanks to its massive width of 145 light years. It can be located at 20 degrees to the West of constellation Lyra.
182. One of the most powerful telescopes in the world is on the brink of collapse. Arecibo, a giant radio observatory nestled in the lush mountains of Puerto Rico, did some of the dreamiest work in ...
183. After being built, the observatory would not need to be crewed, as it would be solar-powered and could be controlled remotely, much like the telescopes orbiting Earth today. But how do you build a ...
184. “Such telescopes, perhaps 100 meters in diameter can see back to the early phases of the universe after the Big Bang,” Worden added. NASA abandoned the idea shortly after it was propose ...
185. It is the end of one of the most iconic and scientifically productive telescopes in the history of astronomy – and scientists are mourning its loss, according to Nature magazine. “I don’t ...
186. A group of astronomers from the University of Texas at Austin believe that reviving an old NASA plan from a decade ago could solve a problem other telescopes are unable to tackle. The astronomers ...
187. telescopes sentence examples. But although the argument from gratings is instructive and convenient in some respects, its use has tended to obscure the essential unity of the principle of the limit of resolution whether applied to telescopes or microscopes. 4. 4.
188. Examples of telescope in a sentence, how to use it. 99 examples: Of course there were newly developed and operational tools (radio telescopes…
189. Examples of telescopes in a sentence: 1. Occultations, telescopes for. 2. Simultaneously the two telescopes were lowered. 3. All day long a hundred telescopes swept the sea.
190. 1. 1. 1. 1. 1. 1. 1. How to use reflecting telescope in a sentence The mammoth 19-inch reflecting telescope, one of the largest public telescopes in northern England, 8. telescope in a sentence - Use "telescope" in a sentence 1. The brightness measurements were made using the orbiting Hubble Space telescope.
191. Use “telescopes” in a sentence | “telescopes” example sentences . 1- The view of Mars through earthly telescopes suggested that all was serene. 2- Particularly well equipped are the apogee telescopes. 3- For centuries we had studied the Moon through telescopes and, latterly, from satellites.
192. Currently, NASA’s Far Ultraviolet Spectroscopic Explorer or FUSE and the Hubble Space Telescope are operational, and most prominent examples of UV space based telescopes. Image of Crab nebula at multiple wavelengths Image Courtesy: NASA. 6. X-Ray telescopes. X-ray telescopes are designed to study extremely distant objects in X-ray frequency.
193. How can I put and write and define space telescopes in a sentence and how is the word space telescopes used in a sentence and examples? 用space telescopes造句, 用space telescopes造句, 用space telescopes造句, space telescopes meaning, definition, pronunciation, synonyms and example sentences are provided by .
194. In all these products, whether iron bridges, locomotives, automobiles, telescopes, cottages, airport-hangars, funicular railways, skyscrapers, or children’s toys, the will towards a new style expresses itself.The similarity of these examples to the new creations in art consists in the same striving for clear, pure form which expresses truth in the objects.
195. Translations of the word telescopes from german to english and examples of the use of "TELESCOPES" in a sentence with their translations: Finding intelligent life with telescopes and computers, podcast 2008.
196. How can I put and write and define radio telescopes in a sentence and how is the word radio telescopes used in a sentence and examples? 用radio telescopes造句, 用radio telescopes造句, 用radio telescopes造句, radio telescopes meaning, definition, pronunciation, synonyms and example sentences are provided by .
197. telescopes definition: Noun 1. plural form of telescope Of the magnifying power of telescopes, for the rays emerging from the eye-piece when adjusted for distinct vision to be parallel.; But although the argument from gratings is instructive and convenient in some respects, its use has tended to obscure the essential unity of the principle of the limit of resolution whether applied to
198. 4- radio telescopes often have a prime focus design. 5- They are also used in radio telescopes .. 6- The cosmic microwave background radiation was also first detected using radio telescopes .. 7- radio telescopes are used to investigate the cosmos using large radio antennas. 8- However, not every radio telescope is of the dish type.. 9- I mean I have helped to run a radio telescope .
199. Translations of the phrase UNIT telescopes from english to finnish and examples of the use of "UNIT TELESCOPES" in a sentence with their translations: Each of the four VLT unit telescopes (UTs) is equipped with the
200. List of optical telescope types. Optical telescopes can be classified by three primary optical designs (refractor, reflector, or catadioptric), by sub-designs of these types, by how they are constructed, or by the task they perform. They all have their different advantages and disadvantages and they are used in different areas of professional and amateur astronomy.
201. Radio-telescopes sentence examples. interferometer network using up to 7 radio telescopes. 0. 0. Without any stars to give light, it could only be found using radio telescopes. 0. 0. As befits such a gargantuan structure, one of the largest steerable radio telescopes in the world, its archive is vast. 0. 0. radioteletypes; 2.
202. Refracting telescopes Refracting telescopes use lenses to bend the light to a specific focal point such that the object will be magnified to the viewer. You can go here to learn more about the refraction of light using lenses. The basic refracting telescope has two lenses. The first lens is called the objective lens.
203. Reflecting telescope definition is - reflector. Recent Examples on the Web Its HiRISE camera, which carries the largest reflecting telescope ever sent into deep space, takes around 50,000 pictures of the Martian surface a year. — David Grossman, Popular Mechanics, "The Star Trek Logo Was Found on Mars.Really.," 14 June 2019 Satellite dishes, some types of microphones, reflecting telescopes
204. Examples of telescopes in a Sentence; Примеры telescope. The adaptive optical systems in modern astronomical telescopes compensate for atmospheric distortion by using deformable mirrors. Optical telescopes don't work when it is cloudy. If any distant world (which may be the case)
205. telescopes should be advertised by their aperture and focal length, not by a maximum magnification. Telescope Mountings. There are many different mountings for telescopes, but they come in two basic flavors. The simplest is the altazimuth mount, which allows the telescope to be moved up and down (altitude) and back and forth (azimuth).
206. Sentence examples for present a prospect from inspiring English sources. RELATED ( 11 ) Images transmitted to our telescopes from space are old, Ludwig is the first sentence search engine that helps you write better English by giving you contextualized examples taken from reliable sources.
207. A binocular telescope uses a set of telescopes mounted and synchronized so your view of the sky is 3-D. Beyond the basic types, other terms refer to parts of the telescope or to the science behind how telescopes work.
208. Your Tripod. telescopes come with two different types of tripods. Some of them come mounted to traditional tripods that can go up very tall. These can be placed anywhere on the ground. Even if the ground isn’t completely level, you may be able to adjust the legs to properly balance the telescope.The legs come with little plastic latches that are very simple to operate.
209. Sentence frame: Somebody ----s something Context examples . These bodies are difficult to study even with powerful telescopes, as they are small, shine very little, and are so far away from Earth. (Brazil astronomers discover ring around dwarf planet near Pluto, Agência Brasil)
210. Observatories Across the Electromagnetic Spectrum. Astronomers use a number of telescopes sensitive to different parts of the electromagnetic spectrum to study objects in space. Even though all light is fundamentally the same thing, the way that astronomers observe light depends on the portion of the spectrum they wish to study.. For example, different detectors are sensitive to different
211. The minimum receiver optical aperture required of a lidar system for space-based tropospheric wind profiling in order to meet moderately demanding spatial resolution and Doppler accuracy requirements is found to be about 2 meters, a size which may be practical with the development of deployable optical telescopes.
212. telescopes come in many different optical formats, such as; reflectors, refractors, and compound telescopes. Each type of telescope has its own strengths and weaknesses. Although I personally favor refractors from an astrophotography perspective, they may not be an ideal choice for a beginner. Newtonian reflectors offer a much larger aperture

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