X-ray Diffraction in a sentence

(1) X-ray diffraction is a non-destructive technique.

(2) The team used X-ray diffraction to analyze the polymorphs.

(3) The cerussite sample was analyzed using X-ray diffraction.

(4) The porphyrite sample was analyzed using X-ray diffraction.

(5) The scientist used X-ray diffraction to study the anhedrals.

(6) X-ray diffraction can be used to identify unknown substances.

(7) Bainite can be identified using X-ray diffraction techniques.

(8) The crystallite structure was analyzed using X-ray diffraction.

(9) X-ray diffraction patterns are unique to each crystal structure.

(10) X-ray diffraction relies on the properties of the x-ray spectrum.

X-ray Diffraction sentence

(11) X-ray diffraction is an important tool in the study of mineralogy.

(12) The crystalloids were analyzed using X-ray diffraction techniques.

(13) The atomises of the element were analyzed using X-ray diffraction.

(14) The boehmites in the sample were analyzed using X-ray diffraction.

(15) The interparticle spacing can be measured using X-ray diffraction.

(16) The geologist used X-ray diffraction to analyze the macle crystal.

(17) X-ray diffraction is an essential tool in the field of mineralogy.

(18) The interlamellar distance can be measured using X-ray diffraction.

(19) The X-ray diffraction technique is commonly used in crystallography.

(20) The morphologies of crystals can be studied using X-ray diffraction.

X-ray Diffraction make sentence

(21) X-ray diffraction is widely used in the study of protein structures.

(22) The size of microcrystals can be determined using X-ray diffraction.

(23) The coprecipitate was characterized using X-ray diffraction analysis.

(24) X-ray diffraction is commonly used in the field of materials science.

(25) The serpentinized rock samples were analyzed using X-ray diffraction.

(26) The gangue minerals were identified using X-ray diffraction analysis.

(27) The X-ray diffraction pattern revealed the presence of a crystallite.

(28) X-ray diffraction is widely used in the field of solid-state physics.

(29) Aplitic minerals can be identified through X-ray diffraction analysis.

(30) The bremsstrahlung radiation is used in X-ray diffraction experiments.

Sentence of x-ray diffraction

(31) The polytype of this mineral can be identified using X-ray diffraction.

(32) The dodecahedral crystal structure was analyzed using X-ray diffraction.

(33) The research team used X-ray diffraction to analyze the microstructures.

(34) The scientist used X-ray diffraction to analyze the monoclinous crystal.

(35) X-ray diffraction can be used to study the defects in crystal structures.

(36) Interatomic distances can be measured using X-ray diffraction techniques.

(37) The geologist used X-ray diffraction to confirm the presence of bornitic.

(38) The anisotropism of the material can be analyzed using X-ray diffraction.

(39) X-ray diffraction is commonly employed in the field of materials science.

(40) The X-ray diffraction analysis confirmed the purity of the microcrystals.

X-ray Diffraction meaningful sentence

(41) X-ray diffraction is an essential tool in the study of protein structures.

(42) X-ray diffraction can be used to study the phase transitions in materials.

(43) The microcrystal structure was carefully examined using X-ray diffraction.

(44) The microcrystal structure was analyzed using X-ray diffraction techniques.

(45) Anatase is often used as a reference material in X-ray diffraction studies.

(46) The pelitic minerals in the rock can be identified using X-ray diffraction.

(47) The mineralogist identified the amblygonite sample using X-ray diffraction.

(48) The crystalloid lattice of the mineral was analyzed using X-ray diffraction.

(49) Gibbsite is often used as a reference material in X-ray diffraction studies.

(50) The hemihedral symmetry of the crystal was analyzed using X-ray diffraction.

X-ray Diffraction sentence examples

(51) The rhombohedral angles of the crystal were measured using X-ray diffraction.

(52) X-ray diffraction is a technique used to determine the structure of crystals.

(53) The bauxitic minerals in this sample can be analyzed using X-ray diffraction.

(54) The atomical structure of the mineral was identified using X-ray diffraction.

(55) The X-ray diffraction pattern confirmed the monoclinic nature of the crystal.

(56) The scientists used X-ray diffraction to analyze electrode crystal structure.

(57) The crystal lattice of a substance can be determined using x-ray diffraction.

(58) The crystal structure of dawsonites can be visualized using X-ray diffraction.

(59) The depolymerised material was characterized using X-ray diffraction analysis.

(60) The presence of uranophane can be detected through X-ray diffraction analysis.

Sentence with x-ray diffraction

(61) The spherulitic structure of the mineral was analyzed using X-ray diffraction.

(62) The crystal structure of molybdates can be determined using X-ray diffraction.

(63) The crystal structure of tungstates can be determined using X-ray diffraction.

(64) The x-ray diffraction data provided evidence for the formation of a new phase.

(65) The presence of embolite can be identified through X-ray diffraction analysis.

(66) The pleochroism of the crystal was analyzed using X-ray diffraction techniques.

(67) X-ray diffraction is used to determine the crystalline structure of a material.

(68) The researcher used X-ray diffraction to analyze the crystallite's composition.

(69) The discovery of X-ray diffraction revolutionized the field of crystallography.

(70) X-ray diffraction can provide information about the size and shape of crystals.

Use x-ray diffraction in a sentence

(71) X-ray diffraction can be used to analyze the composition of geological samples.

(72) The crystal structure of the polymorphs was determined using X-ray diffraction.

(73) The crystallizable material was characterized using X-ray diffraction analysis.

(74) The crystallographer used X-ray diffraction to determine the crystal structure.

(75) The researchers analyzed the semicrystalline structure using X-ray diffraction.

(76) The presence of millerite can be identified through X-ray diffraction analysis.

(77) Quasicrystals have been studied extensively using X-ray diffraction techniques.

(78) X-ray diffraction is a key technique in the field of materials characterization.

(79) The structure of oxyfluoride crystals can be determined using X-ray diffraction.

(80) The monosymmetric structure of the crystal was analyzed using X-ray diffraction.

Sentence using x-ray diffraction

(81) X-ray diffraction analysis revealed the presence of a new mineral in the sample.

(82) The crystalline structure of spherulites can be studied using X-ray diffraction.

(83) X-ray diffraction is a technique used to study the atomic structure of materials.

(84) The crystal structure of phyllosilicates can be analyzed using X-ray diffraction.

(85) Silver iodide is often used as a reference material in X-ray diffraction studies.

(86) The x-ray diffraction analysis revealed the presence of impurities in the sample.

(87) The bipyramidal crystal structure was carefully analyzed using X-ray diffraction.

(88) X-ray diffraction is a technique that relies on the scattering of X-rays by atoms.

(89) The metallurgist analyzed the crystal structure of metals using X-ray diffraction.

(90) The identification of chlorites in a sample can be done through X-ray diffraction.

X-ray Diffraction example sentence

(91) The anticathode is a primary source of X-ray photons in X-ray diffraction studies.

(92) The crystal lattice of a mineral can be studied using X-ray diffraction techniques.

(93) X-ray diffraction is based on the principle of constructive interference of X-rays.

(94) X-ray diffraction is widely used in the pharmaceutical industry for drug discovery.

(95) X-ray diffraction can be used to determine the presence of impurities in a crystal.

(96) X-ray diffraction is used in the field of archaeology to analyze ancient artifacts.

(97) The decarburizations of the steel were analyzed using X-ray diffraction techniques.

(98) Pentlandite is commonly used as a reference mineral for X-ray diffraction analysis.

(99) X-ray diffraction can be used to study the arrangement of crystallites in a sample.

(100) The crystal structure of the niobate material was analyzed using X-ray diffraction.

Sentence with word x-ray diffraction

(101) The trigonal symmetry of the crystal is reflected in its X-ray diffraction pattern.

(102) Bismuthite can be easily distinguished from other minerals using X-ray diffraction.

(103) X-ray diffraction is used to investigate the crystallographic defects in materials.

(104) If you are conducting X-ray diffraction experiments, a diffractometer is essential.

(105) The behavior of solid matter can be studied using techniques like X-ray diffraction.

(106) X-ray diffraction is used in the field of geology to study the composition of rocks.

(107) The crystal structure of platinocyanide has been determined using X-ray diffraction.

(108) The crystal structure of melilite can be studied using X-ray diffraction techniques.

(109) The spectral purity of the crystal was evaluated using X-ray diffraction techniques.

(110) The formation of the coprecipitate was confirmed through X-ray diffraction analysis.

Sentence of x-ray diffraction

(111) The researcher measured the crystallinity of the rock sample using X-ray diffraction.

(112) The scientist studied the crystal structure of molybdic acid using X-ray diffraction.

(113) The debye-Waller factor quantifies the effect of thermal motion on X-ray diffraction.

(114) The debye-Waller factor is used to correct X-ray diffraction data for thermal motion.

(115) The x-ray diffraction data confirmed the presence of a new polymorph of the compound.

(116) X-ray diffraction analysis is crucial in the development of new pharmaceutical drugs.

(117) The x-ray diffraction technique allows for the determination of unit cell parameters.

(118) The properties of bilayers can be studied using techniques such as X-ray diffraction.

(119) The isotropy of a substance can be studied using techniques such as X-ray diffraction.

(120) X-ray diffraction can be used to determine the crystal structure of organic compounds.

X-ray Diffraction used in a sentence

(121) X-ray diffraction is used in the field of metallurgy for quality control of materials.

(122) The x-ray diffraction experiment provided evidence for the presence of a superlattice.

(123) X-ray diffraction is used to study the deformation behavior of materials under stress.

(124) The anticathode is a source of characteristic X-rays in X-ray diffraction experiments.

(125) The anticathode is a target for electron bombardment in X-ray diffraction experiments.

(126) The tetrahedral symmetry of this crystal is reflected in its X-ray diffraction pattern.

(127) The structure of hydrides can be determined using techniques such as X-ray diffraction.

(128) The lattice structure of a crystalline solid can be visualized using X-ray diffraction.

(129) The mineralogist used X-ray diffraction to identify the crystal structure of ytterbite.

(130) The geologist used X-ray diffraction to determine the mineral's rhombohedral structure.

X-ray Diffraction sentence in English

(131) The crystal structure of vanadates can be determined using X-ray diffraction techniques.

(132) The presence of kernite in a sample can be confirmed through X-ray diffraction analysis.

(133) The x-ray diffraction analysis confirmed the presence of a single crystal in the sample.

(134) The x-ray diffraction technique is employed in the analysis of archaeological artifacts.

(135) The crystallographer studied the atomic arrangement of fluorites using X-ray diffraction.

(136) X-ray diffraction can be used to determine the arrangement of atoms in a crystal lattice.

(137) The crystal structure of aluminates can be determined using X-ray diffraction techniques.

(138) The clinopinacoid crystal structure can be visualized using X-ray diffraction techniques.

(139) The scientist used X-ray diffraction to determine the tetragonal symmetry of the crystal.

(140) The crystal structure of tellurides can be determined using X-ray diffraction techniques.

(141) Metallurgists analyze the crystal structure of metals using X-ray diffraction techniques.

(142) The hemihydrate form of a substance can be identified through X-ray diffraction analysis.

(143) X-ray diffraction is a powerful technique for studying the arrangement of atoms in solids.

(144) The wurtzite crystal structure can be analyzed using techniques such as X-ray diffraction.

(145) The biaxal deformation of the material was characterized using X-ray diffraction analysis.

(146) The crystallographer studied the crystal structure of hypersthene using X-ray diffraction.

(147) X-ray diffraction is used to identify unknown substances based on their crystal structure.

(148) X-ray diffraction is used to determine the crystal structure of complex organic compounds.

(149) The recrystallises of certain substances can be studied using X-ray diffraction techniques.

(150) The enantiotropic properties of the material were studied using X-ray diffraction analysis.

(151) The identification of garnierite requires specialized techniques such as X-ray diffraction.

(152) The x-ray diffraction technique is commonly employed in the characterization of thin films.

(153) X-ray diffraction is used to determine the crystallographic orientation of single crystals.

(154) X-ray diffraction is a versatile tool for investigating the phase composition of materials.

(155) The equiaxial symmetry of the crystal lattice was evident in its X-ray diffraction pattern.

(156) X-ray diffraction is a versatile technique that can be applied to a wide range of materials.

(157) The crystal structure of diphenylene has been determined using X-ray diffraction techniques.

(158) The crystal structure of quinoxaline has been determined using X-ray diffraction techniques.

(159) The scientist used X-ray diffraction to analyze the microcrystalline structure of the sample.

(160) The unique crystal structure of saponite gives it a characteristic X-ray diffraction pattern.

(161) The plagioclastic nature of this mineral can be confirmed through X-ray diffraction analysis.

(162) The presence of taenite in a rock sample can be confirmed through X-ray diffraction analysis.

(163) Magnetic x-ray diffraction is a technique used to study the magnetic properties of materials.

(164) X-ray diffraction is an indispensable method for studying the atomic arrangement in minerals.

(165) The identification of polytypes is typically done using techniques such as X-ray diffraction.

(166) The bipyramidal symmetry of the crystal lattice is reflected in its X-ray diffraction pattern.

(167) The lyotropic behavior of certain molecules can be studied using X-ray diffraction techniques.

(168) X-ray diffraction is used in the field of forensic science for the analysis of trace evidence.

(169) X-ray diffraction is commonly used in crystallography to determine the structure of molecules.

(170) Enantiomorphic forms of certain minerals can be identified using X-ray diffraction techniques.

(171) The x-ray diffraction pattern exhibited a characteristic fingerprint of the crystal structure.

(172) X-ray diffraction can provide information about the crystallographic orientation of a material.

(173) X-ray diffraction is a non-invasive technique that does not require the destruction of samples.

(174) The magnetic x-ray diffraction pattern revealed the presence of magnetic domains in the sample.

(175) Magnetic x-ray diffraction studies have revolutionized our understanding of magnetic materials.

(176) The magnetic x-ray diffraction pattern showed evidence of magnetic frustration in the material.

(177) X-ray diffraction is a non-destructive method for studying the internal structure of materials.

(178) The hemihydrate was analyzed using X-ray diffraction, and the crystal structure was determined.

(179) The presence of rutiles in a mineral sample can be identified using X-ray diffraction analysis.

(180) The presence of embolite in a rock sample can be identified through X-ray diffraction analysis.

(181) The presence of cobaltite in a rock sample can be identified through X-ray diffraction analysis.

(182) The crystal structure of benzil has been extensively studied using X-ray diffraction techniques.

(183) The crystal structure of picene has been extensively studied using X-ray diffraction techniques.

(184) The 'wavenumbers' array is an essential component in the analysis of X-ray diffraction patterns.

(185) I analyzed the microcrystal's X-ray diffraction pattern, and I identified its crystal structure.

(186) Researchers used magnetic x-ray diffraction to investigate the magnetic ordering in the material.

(187) The identification of uraninites in a rock sample can be done through X-ray diffraction analysis.

(188) The x-ray diffraction pattern exhibited sharp peaks, indicating a highly ordered crystal lattice.

(189) The presence of andalusite in a rock sample can be identified through X-ray diffraction analysis.

(190) Devitrification can be studied using techniques such as X-ray diffraction and electron microscopy.

(191) The semimetallic behavior of a material can be studied using techniques such as X-ray diffraction.

(192) The identification of goethite in a sample can be done using techniques such as X-ray diffraction.

(193) The crystal structure of fluorene has been extensively studied using X-ray diffraction techniques.

(194) X-ray diffraction is used in the field of nanotechnology for the characterization of nanomaterials.

(195) The x-ray diffraction technique allows scientists to determine the size and shape of nanoparticles.

(196) X-ray diffraction is a valuable tool for studying the structural changes in materials upon heating.

(197) The recrystallized compound was analyzed using X-ray diffraction to determine its crystal structure.

(198) Magnetic x-ray diffraction is a powerful tool for studying the magnetic properties of nanomaterials.

(199) The identification of euxenite in a rock sample can be confirmed through X-ray diffraction analysis.

(200) X-ray diffraction is used in the field of materials engineering for the development of new materials.

(201) The coprecipitates were subjected to X-ray diffraction analysis to determine their crystal structure.

(202) The crystal structure of metavanadate compounds can be determined using X-ray diffraction techniques.

(203) The magnetic x-ray diffraction experiment revealed the presence of magnetic impurities in the sample.

(204) The identification of tridymite in a rock sample can be confirmed through X-ray diffraction analysis.

(205) The x-ray diffraction pattern exhibited a high degree of symmetry, indicating a well-ordered crystal.

(206) College students can learn about the principles of X-ray diffraction by operating the diffractometer.

(207) The researcher conducted X-ray diffraction analysis to determine the crystal structure of argyrodite.

(208) If you are conducting grazing incidence X-ray diffraction experiments, a diffractometer is essential.

(209) The arsenopyrite samples were analyzed using X-ray diffraction to determine their mineral composition.

(210) Magnetic x-ray diffraction measurements confirmed the presence of magnetic anisotropy in the material.

(211) Researchers used magnetic x-ray diffraction to study the magnetic ordering in complex oxide materials.

(212) The x-ray diffraction pattern provided valuable insights into the arrangement of atoms in the crystal.

(213) The scientist used X-ray diffraction to determine the percentage composition of the crystal structure.

(214) Magnetic x-ray diffraction is a valuable tool for characterizing the magnetic properties of thin films.

(215) The magnetic x-ray diffraction experiment provided evidence for the existence of magnetic superlattices.

(216) The magnetic x-ray diffraction experiment provided insights into the magnetic structure of the material.

(217) Eutectoid reactions are often studied using techniques such as X-ray diffraction and electron microscopy.

(218) The identification of chalcocite in a mineral sample can be confirmed through X-ray diffraction analysis.

(219) X-ray diffraction is a fundamental tool in the study of the structure-property relationships of materials.

(220) The magnetic x-ray diffraction technique allowed scientists to determine the magnetic anisotropy constant.

(221) The magnetic x-ray diffraction technique allowed scientists to determine the magnetic moment of the sample.

(222) Magnetic x-ray diffraction is a non-destructive technique for probing the magnetic properties of materials.

(223) The interlamellar distance between the layers of a crystal lattice can be measured using X-ray diffraction.

(224) The properties of materia can be characterized using techniques like X-ray diffraction or mass spectrometry.

(225) The magnetic x-ray diffraction experiment provided valuable insights into the material's magnetic structure.

(226) The magnetic x-ray diffraction technique provided valuable information about the magnetic anisotropy energy.

(227) The magnetic x-ray diffraction technique allowed scientists to study the magnetic behavior of nanoparticles.

(228) The magnetic x-ray diffraction pattern exhibited magnetic Bragg peaks corresponding to the crystal structure.

(229) Magnetic x-ray diffraction measurements provided evidence for the presence of magnetic domains in the sample.

(230) The magnetic x-ray diffraction pattern exhibited characteristic peaks corresponding to the magnetic structure.

(231) Researchers used magnetic x-ray diffraction to investigate the effect of temperature on the magnetic behavior.

(232) The identification of babingtonites in a rock sample requires specialized techniques such as X-ray diffraction.

(233) The magnetic x-ray diffraction experiment revealed the magnetic structure of the material at atomic resolution.

(234) The crystallographic properties of tetradymite have been extensively studied using X-ray diffraction techniques.

(235) The mineralogist conducted X-ray diffraction analysis to confirm the presence of baddeleyite in the rock sample.

(236) Magnetic x-ray diffraction measurements allowed scientists to determine the magnetic domain size in the material.

(237) Magnetic x-ray diffraction studies have been instrumental in understanding the magnetic properties of thin films.

(238) Magnetic x-ray diffraction measurements confirmed the presence of a magnetic phase transition at low temperatures.

(239) The pinacoids of this mineral can be studied using X-ray diffraction techniques to determine its crystal structure.

(240) Magnetic x-ray diffraction is a versatile technique for investigating the magnetic properties of various materials.

(241) Researchers used magnetic x-ray diffraction to investigate the effect of an external magnetic field on the material.

(242) The student learned how to interpret X-ray diffraction patterns to determine the crystalline structure of a substance.

(243) Crookes' method of crystallography involves the use of X-ray diffraction to determine the atomic structure of crystals.

(244) Magnetic x-ray diffraction studies have been crucial in understanding the magnetic properties of multiferroic materials.

(245) The suboxide phase of a material can be characterized using techniques such as X-ray diffraction and electron microscopy.

(246) The researcher analyzed the ferromagnesian minerals using X-ray diffraction, and she identified their crystal structures.

(247) The identification of coffinite requires specialized analytical techniques such as X-ray diffraction and electron microscopy.

(248) The identification of feldspars in a rock sample can be done through various analytical techniques, such as X-ray diffraction.

(249) The formation of a co-precipitate can be monitored using techniques such as X-ray diffraction and scanning electron microscopy.

(250) Allomorphic differences can be detected using various analytical techniques, and they can also be characterized by X-ray diffraction.

(251) The spacing between atoms in a crystal lattice can be measured using X-ray diffraction to determine the interatomic distances in angstroms.

The word usage examples above have been gathered from various sources to reflect current and historical usage of the word X-ray Diffraction. They do not represent the opinions of TranslateEN.com.