Uranium in a sentence

(1) Uranium is a radioactive element.

(2) Actiniums are found in uranium ores.

(3) Radon is a decay product of uranium.

(4) Uranium has an atomic mass of 238.03.

(5) Uranium bioaccumulates in the kidneys.

(6) The mass number of uranium-235 is 235.

(7) The atomic weight of uranium is 238.03.

(8) The earth is where we find our uranium.

(9) The atomic mass of uranium is around 238.

(10) Nuclear power plants use uranium as fuel.

Uranium sentence

(11) Radon is formed from the decay of uranium.

(12) Francium is primarily found in uranium ores.

(13) Uranate is a compound that contains uranium.

(14) I mine for uranium to generate nuclear power.

(15) Nuclear fuel is primarily composed of uranium.

(16) Autunites are often found in uranium deposits.

(17) Uranium is found in various parts of the world.

(18) Actinium-226 is a decay product of uranium-238.

(19) The fuel rod contains enriched uranium pellets.

(20) Uranium is the most well-known actinide element.

Uranium make sentence

(21) The reactors are fueled by uranium or plutonium.

(22) Uranium is used as fuel in nuclear power plants.

(23) Uraninite is known for its high uranium content.

(24) Uranium and plutonium are examples of actinides.

(25) Gummite is composed of various uranium minerals.

(26) Uranium 235 is used as fuel in nuclear reactors.

(27) The uranium mine is used to make nuclear energy.

(28) The molten uranium was used in nuclear reactors.

(29) They prospected for uranium in the remote region.

(30) Polonium is a rare element found in uranium ores.

Sentence of uranium

(31) The halflife of uranium-238 is 4.5 billion years.

(32) The molten uranium was used to make nuclear fuel.

(33) Actinoid elements are often found in uranium ores.

(34) The decay of uranium-238 produces alpha-particles.

(35) He spent years mining for uranium in the mountains.

(36) Nuclear power plants use uranium to produce energy.

(37) The boiling water reactor is fueled by uranium-235.

(38) Actinium is found in trace amounts in uranium ores.

(39) The price of uranium has fluctuated in recent years.

(40) Uranium is a heavy metal with a silvery-white color.

Uranium meaningful sentence

(41) The alpha decay of uranium-238 produces thorium-234.

(42) The element uranium is used in nuclear power plants.

(43) The smelted uranium was used in nuclear power plants.

(44) The groundwater had a uranium concentration of 4 ppb.

(45) The mining of uranium can have environmental impacts.

(46) Uranophane is commonly found in uranium ore deposits.

(47) The nuclear reactor contained highly fissile uranium.

(48) The use of uranium in weapons is highly controversial.

(49) Uranium deposits are often found in underground mines.

(50) Uranium prices are influenced by geopolitical factors.

Uranium sentence examples

(51) Cleveite is primarily composed of uranium and thorium.

(52) Uranium 235 undergoes alpha decay to form thorium 231.

(53) Uranyl is a compound that contains uranium and oxygen.

(54) Uraninites are a type of mineral that contain uranium.

(55) Pitchblende is also known as uraninite or uranium ore.

(56) The molten uranium was used to fuel a nuclear reactor.

(57) The alpha decay of plutonium-239 produces uranium-235.

(58) The gas cooled reactor can use natural uranium as fuel.

(59) The boiling water reactor is fueled by uranium pellets.

(60) The name uraninite is derived from the element uranium.

Sentence with uranium

(61) The word uranic refers to something related to uranium.

(62) Uranium 235 is a highly radioactive isotope of uranium.

(63) The radiogenic decay of uranium produces lead isotopes.

(64) Ninety-two is the atomic number of the element uranium.

(65) Uranous acetate is used in the purification of uranium.

(66) The molten uranium was poured into the nuclear reactor.

(67) Neptunium can be found in trace amounts in uranium ores.

(68) Uranium is one of the most well-known actinoid elements.

(69) Actinon is produced by the decay of uranium and thorium.

(70) The uranium mine is heavily regulated by the government.

Use uranium in a sentence

(71) The radioisotopic decay of uranium-238 produces lead-206.

(72) The majuscule U is commonly used as a symbol for uranium.

(73) The natural abundance of uranium 235 is only about 0.72%.

(74) The gas cooled reactor is fueled by uranium or plutonium.

(75) The antinuke movement called for a ban on uranium mining.

(76) Nuclear power plants use uranium to generate electricity.

(77) Fluorine is a key component in the production of uranium.

(78) Uranophane is a hydrated calcium uranium silicate mineral.

(79) The geologist's expertise helped locate a lode of uranium.

(80) The abandoned uranium mine was found to contain radiation.

Sentence using uranium

(81) If the element is uranium, it can undergo nuclear fission.

(82) Autunites are composed of calcium, uranium, and phosphate.

(83) The element uranium is used as a fuel in nuclear reactors.

(84) The mined uranium was used as fuel in nuclear power plants.

(85) Radon is a radioactive decay product of uranium and radium.

(86) Thorium is more abundant in the Earth's crust than uranium.

(87) The radioactive decay of protactinium produces uranium-235.

(88) Ninety-two is the number of protons in the element uranium.

(89) Uraninite is a valuable source of uranium for nuclear fuel.

(90) Uranous nitrate is used in the production of uranium metal.

Uranium example sentence

(91) Pitchblende is a radioactive mineral that contains uranium.

(92) Plutonium can be found in small amounts in natural uranium.

(93) The fission of uranium-235 is the basis for the atomic bomb.

(94) Uranium is used in the medical field for diagnostic imaging.

(95) The unenriched uranium is not suitable for nuclear reactors.

(96) Uraninites have a high density due to their uranium content.

(97) The element uranium is used as fuel in nuclear power plants.

(98) Gummite is a rare mineral that is found in uranium deposits.

(99) Neutrons can be absorbed by certain materials, like uranium.

(100) Radon is formed from the decay of uranium in soil and rocks.

Sentence with word uranium

(101) The actinoids include elements such as uranium and plutonium.

(102) Monazite is known for its high levels of thorium and uranium.

(103) Fast reactors can utilize both uranium and plutonium as fuel.

(104) Gummite is a mineral that is often found in uranium deposits.

(105) The critical temperature of uranium is 1,132 degrees Celsius.

(106) The vapor pressure of uranium hexafluoride is relatively low.

(107) Uranium 235 is a heavy metal with a silvery-white appearance.

(108) The lixiviation of uranium from its ore is a complex process.

(109) Cleveite is a rare mineral that contains uranium and thorium.

(110) The unenriched uranium was not suitable for nuclear reactors.

Sentence of uranium

(111) Uranium 235 is a radioactive isotope used in nuclear reactors.

(112) Thorium is not as easily weaponizable as uranium or plutonium.

(113) The power plant needs to fuel with uranium for nuclear energy.

(114) Niton is produced as a byproduct of uranium and thorium decay.

(115) The specific energy of uranium is higher than that of thorium.

(116) The enrichment process separates uranium 235 from uranium 238.

(117) Uranium-235 is a fissionable isotope used in nuclear reactors.

(118) Uranate minerals are often found in uranium-rich ore deposits.

(119) Certain minerals, like lead and uranium, can absorb radiation.

(120) The discovery of plutonium was a result of research on uranium.

Uranium used in a sentence

(121) The transportation of uranium requires strict safety protocols.

(122) Uranium enrichment is a crucial step in the nuclear fuel cycle.

(123) Uranyl phosphate is a common mineral found in uranium deposits.

(124) Biomining has been used to extract uranium from low-grade ores.

(125) Thorianite is a rare mineral found in certain uranium deposits.

(126) The atomic spectrum of uranium is used in nuclear power plants.

(127) Uranium 235 is fissile, meaning it can undergo nuclear fission.

(128) Thorianite is a rare mineral that contains thorium and uranium.

(129) The black color of uraninite is due to the presence of uranium.

(130) The uranium mine was the subject of a government investigation.

Uranium sentence in English

(131) Uranium 235 is a valuable commodity in the international market.

(132) Uranium 235 plays a crucial role in the global energy landscape.

(133) The fission of uranium-235 is commonly used in nuclear reactors.

(134) Uranium is a key component in the production of nuclear weapons.

(135) Uranium can be used as a catalyst in certain chemical reactions.

(136) Uranium is a highly sought-after commodity in the global market.

(137) The allanite veins in this mine are rich in thorium and uranium.

(138) Thoron is a byproduct of the decay of uranium in soil and rocks.

(139) Henri Becquerel's experiments involved the use of uranium salts.

(140) Uranium 235 is a valuable commodity in the global energy market.

(141) Yellowcake is a valuable commodity in the global uranium market.

(142) Radon levels can be higher in areas with high levels of uranium.

(143) Uranium 235 has a half-life of approximately 703.8 million years.

(144) Uranium 235 is a key component in the production of nuclear fuel.

(145) Thorium is a fertile material that can breed fissile uranium-233.

(146) Thorianite is a key mineral in the study of uranium ore deposits.

(147) Autunite is often associated with other uranium-bearing minerals.

(148) The fissile uranium was purified to remove impurities before use.

(149) The spectrum line of uranium is used in nuclear power generation.

(150) Allanites are known for their high levels of thorium and uranium.

(151) Uranium-lead isotopes are commonly used in geochronology studies.

(152) Uraninite is a naturally occurring mineral that contains uranium.

(153) Torbernite is a green, radioactive mineral that contains uranium.

(154) The trader made a risky move by buying up the futures of uranium.

(155) The radioactive properties of uranium make it dangerous to handle.

(156) The disposal of uranium waste is a major concern for the industry.

(157) The uranyl carbonate mineral is found in certain uranium deposits.

(158) Coffinite is a mineral that is commonly found in uranium deposits.

(159) The pitchblende veins in this mine are incredibly rich in uranium.

(160) Pitchblende is a valuable mineral due to its high uranium content.

(161) The fissioning of uranium atoms releases a large amount of energy.

(162) The half-life of uranium-235 is approximately 703.8 million years.

(163) The half-life of uranium 235 is approximately 703.8 million years.

(164) Cleveite is a valuable source of uranium for nuclear power plants.

(165) The demand for uranium is expected to increase in the coming years.

(166) Uranium mining can have negative impacts on indigenous communities.

(167) Uranium-235 is a fissile isotope commonly used in nuclear reactors.

(168) Torbernite is a mineral that is commonly found in uranium deposits.

(169) Fissions can occur in heavy elements such as uranium and plutonium.

(170) The fissioning of uranium-235 is commonly used in nuclear reactors.

(171) The hexavalent form of uranium is highly radioactive and dangerous.

(172) Helium is produced by the radioactive decay of uranium and thorium.

(173) The discovery of uranium revolutionized the field of nuclear energy.

(174) Pitchblende is a primary source of uranium for nuclear power plants.

(175) Cleveite is an important source of uranium for nuclear power plants.

(176) Uraninites are a type of mineral commonly found in uranium deposits.

(177) Uranium 235 is a key component in the production of nuclear weapons.

(178) The uranium-lead ratio can be used to estimate the age of the Earth.

(179) The actinide series includes elements such as uranium and plutonium.

(180) The global trade of uranium is regulated by international agreements.

(181) Thorium is a fertile material that can be converted into uranium-233.

(182) Uranyl oxalate is a precursor for the synthesis of uranium compounds.

(183) The boiling water reactor operates by using enriched uranium as fuel.

(184) The fissioning of uranium-235 produces a variety of fission products.

(185) Gummite is formed through the alteration of primary uranium minerals.

(186) The fissile properties of uranium were first discovered in the 1930s.

(187) Uranium 235 is a key ingredient in the production of nuclear weapons.

(188) The spot price of uranium has been relatively stable in recent years.

(189) The purity of yellowcake is measured in terms of its uranium content.

(190) Torbernite is often found in association with other uranium minerals.

(191) The nuclear power plant uses uranium as fuel to generate electricity.

(192) The uranium mining industry is an important sector in Niger's economy.

(193) The health risks associated with uranium exposure are well-documented.

(194) The company set up a processing plant to extract the lodes of uranium.

(195) Gummite is often found in association with secondary uranium minerals.

(196) Gummite can be found in both underground and surface uranium deposits.

(197) Uranium 235 is highly fissile, making it suitable for nuclear weapons.

(198) Uranium 235 is a key component in the production of nuclear fuel rods.

(199) Fluorine is a key component in the production of uranium hexafluoride.

(200) The decay of uranium 235 releases alpha particles and gamma radiation.

(201) The curies of the uranium ore were extracted using chemical processes.

(202) Coffinite is a rare uranium mineral that was first discovered in 1955.

(203) Breeder reactors require highly enriched uranium or plutonium as fuel.

(204) Uranium 235 is a strategic resource that has geopolitical implications.

(205) The discovery of uranium 235 led to the development of the atomic bomb.

(206) Thorium is not as radioactive as other elements like radium or uranium.

(207) The uranyl group consists of a uranium atom bonded to two oxygen atoms.

(208) Autunite is often used as a source of uranium for nuclear power plants.

(209) The nuclear reactor is designed to irradiate uranium to produce energy.

(210) Uraninites can be found in both primary and secondary uranium deposits.

(211) The isotope mass of uranium-238 is commonly used in radiometric dating.

(212) Uranium 235 is a valuable resource with limited availability worldwide.

(213) The fissioning of uranium atoms releases a tremendous amount of energy.

(214) Fluorine is used in the production of uranium for nuclear power plants.

(215) Uranium is a radioactive chemical element used in nuclear power plants.

(216) The first einsteinium was produced by bombarding uranium with neutrons.

(217) The discovery of uranium 235 revolutionized the field of nuclear energy.

(218) The mining of uranium 235 requires adherence to strict safety protocols.

(219) The enrichment of uranium 235 is a complex and energy-intensive process.

(220) The extraction of uranium requires specialized equipment and techniques.

(221) Uranyl sulfate is a common form of uranium used in the nuclear industry.

(222) The unmined uranium deposits were a valuable resource for nuclear power.

(223) Stuxnet was designed to sabotage centrifuges used in uranium enrichment.

(224) Uraninite is often used as a source of uranium for nuclear power plants.

(225) The fissioning of uranium-235 is the basis for nuclear power generation.

(226) The old uranium enrichment facility was discovered to contain radiation.

(227) The opencut uranium mine was closely monitored for environmental impact.

(228) Uranium 235 is a valuable commodity in the global nuclear energy market.

(229) Neptunium was first synthesized by bombarding uranium-238 with neutrons.

(230) Nuclear reactors utilize uranium 235 as fuel for generating electricity.

(231) Uranium 235 is used as a reference standard for measuring radioactivity.

(232) The isotope mass of uranium-235 is important in nuclear power generation.

(233) The fuel rods in a nuclear reactor contain enriched uranium or plutonium.

(234) Thorium is not as well-known as other elements like uranium or plutonium.

(235) The bright yellow color of autunite is caused by the presence of uranium.

(236) The discovery of uranium 235 revolutionized the field of nuclear physics.

(237) The enrichment of uranium 235 is a delicate and highly regulated process.

(238) The stability of uranium 235 makes it an ideal fuel for nuclear reactors.

(239) The periodic table lists all the elements from carbon through to uranium.

(240) The uranium-lead decay chain is a fundamental process in nuclear physics.

(241) The name uranophane comes from the Greek words for uranium and to appear.

(242) Coffinite is a secondary mineral that forms in oxidized uranium deposits.

(243) Uranium 235 is a highly unstable isotope that undergoes radioactive decay.

(244) The nuclear power plant uses uranium to irradiate water and produce steam.

(245) The Curies' experiments with uranium led to the discovery of new elements.

(246) Gummite is sometimes referred to as uranium gum due to its sticky texture.

(247) The presence of gummite can indicate the presence of valuable uranium ore.

(248) The presence of gummite can indicate the potential for uranium enrichment.

(249) Uranium can oxidize into uranium dioxide, a compound used in nuclear fuel.

(250) The fissile uranium was converted into a gaseous form for easier handling.

(251) Gamma rays are emitted by radioactive isotopes such as uranium and radium.

(252) The discovery of uranium 235 was made by German chemist Otto Hahn in 1935.

(253) The transuranic elements are located in the periodic table beyond uranium.

(254) Nuclear power plants use nuclear reactions to convert uranium into energy.

(255) The uranium-lead method is particularly useful for dating zircon crystals.

(256) The yellow-green color of uranophane is caused by the presence of uranium.

(257) Gummite is often found in small, isolated pockets within uranium deposits.

(258) Uranium-235 is an isotope of uranium that is used in nuclear power plants.

(259) Fluorine gas, which is highly toxic, is used in the production of uranium.

(260) Uranium 235 can be found in various geological formations around the world.

(261) Uranium 235 is a highly regulated material due to its potential for misuse.

(262) The pitchblende samples were analyzed for their uranium and radium content.

(263) The fissioning of uranium-235 can produce a self-sustaining chain reaction.

(264) Gummite is often used as a reference mineral for studying uranium deposits.

(265) The extraction of uranium from gummite involves complex chemical processes.

(266) Acid leaching is often used in the recovery of uranium from low-grade ores.

(267) Radiogenic helium is produced by the decay of uranium and thorium in rocks.

(268) Uranium-238 is a nonfissionable isotope that can be used as a nuclear fuel.

(269) The weaponsgrade uranium was carefully transported to the nuclear facility.

(270) Podesta's role in the Uranium One deal has been the subject of controversy.

(271) Uranate is a compound that contains uranium in its highest oxidation state.

(272) Uranium 235 is highly sought after for its potential use in nuclear weapons.

(273) The extraction of uranium 235 requires specialized techniques and equipment.

(274) The enrichment process is used to increase the concentration of uranium 235.

(275) The fission of uranium-235 produces two smaller nuclei and several neutrons.

(276) Uranyl sulfate solutions are used in the production of yellow uranium glass.

(277) Protactinium is primarily obtained as a byproduct of uranium ore processing.

(278) Uranate is often used as a precursor in the production of uranium compounds.

(279) Uranium 235 can be used as a target material for producing medical isotopes.

(280) Fluorine is used in the production of uranium hexafluoride for nuclear fuel.

(281) The ultrapure uranium is used in nuclear power plants for energy generation.

(282) The extraction of uranium 235 from natural uranium ore is a complex process.

(283) Uranium 235 is a strategic resource with implications for national security.

(284) Uranium 235 isotope separation is a critical step in the nuclear fuel cycle.

(285) Yellowcake is a type of uranium concentrate used in nuclear fuel production.

(286) The uranium found in the mine was weapons-grade, making it highly dangerous.

(287) Pierre Curie's experiments with uranium led to the discovery of new elements.

(288) The fission of uranium-235 is highly efficient in terms of energy production.

(289) Uranium is a valuable resource for countries with nuclear power capabilities.

(290) The use of uranium in power generation helps reduce greenhouse gas emissions.

(291) The explosion of a supernova can create heavy elements like gold and uranium.

(292) Uranophane is often found in association with other uranium-bearing minerals.

(293) The extraction of uranium from uraninite involves complex chemical processes.

(294) The multinuclear reactor is fueled by a combination of uranium and plutonium.

(295) The extraction of uranium is a controversial aspect of extractive industries.

(296) The controlled fission of uranium 235 releases a tremendous amount of energy.

(297) The uranium-lead method is based on the radioactive decay of uranium to lead.

(298) Fissionable isotopes can be found in natural deposits of uranium and thorium.

(299) The uranic properties of the element uranium make it useful in nuclear power.

(300) Uranium 235 can be converted into plutonium through a process called breeding.

(301) The study of uranium isotopes provides valuable insights into Earth's history.

(302) The extraction of uranium from uraninites involves a complex chemical process.

(303) The uranium mine was heavily guarded due to its potential for nuclear weapons.

(304) The color of uranate can vary depending on the oxidation state of the uranium.

(305) The production of uranium 235 involves complex chemical and physical processes.

(306) The discovery of uranium 235 opened up new possibilities for energy production.

(307) The use of uranium 235 in nuclear medicine has revolutionized cancer treatment.

(308) The name uranophane is derived from the Greek words for uranium and appearance.

(309) The radiometric analysis indicated a high concentration of uranium in the soil.

(310) The presence of gummite indicates the potential for uranium mining in the area.

(311) The discovery of gummite in the region sparked interest in uranium exploration.

(312) Uranic is an adjective that describes properties or characteristics of uranium.

(313) The isotope mass of uranium-238 is commonly used as a fuel in nuclear reactors.

(314) The discovery of uranium 235 paved the way for the development of atomic bombs.

(315) Uranium-lead dating is a commonly used method for determining the age of rocks.

(316) Fissions occur naturally in radioactive elements such as uranium and plutonium.

(317) Actinon is a rare earth metal that is found in small quantities in uranium ores.

(318) Uranophane is an important indicator mineral in the search for uranium deposits.

(319) Nuclear power plants harness the mass energy of uranium to generate electricity.

(320) The extraction of uranium 235 requires extensive mining operations and refining.

(321) The use of uranium 235 in nuclear power plants requires strict safety protocols.

(322) Scientists study the properties of uranium 235 to better understand its behavior.

(323) The use of uranium 235 in nuclear reactors helps reduce reliance on fossil fuels.

(324) Pitchblende is a type of uranium ore that is commonly found in underground mines.

(325) Henri Becquerel's experiments with uranium led to the discovery of radioactivity.

(326) Uraninites are commonly used as a source of uranium for nuclear power generation.

(327) The nuclear energy in uranium is convertible into force in a nuclear power plant.

(328) The isotope mass of uranium-235 is significantly higher than that of uranium-238.

(329) The use of uranium 235 in nuclear reactors helps reduce greenhouse gas emissions.

(330) Samarskite is a rare mineral that contains uranium and other rare earth elements.

(331) The nuclear industry relies on the availability of uranium 235 for its operations.

(332) The transportation and storage of uranium 235 require stringent security measures.

(333) The smelting of uranium ore allows for the extraction of uranium for nuclear fuel.

(334) Diesel over nuclear energy is favored in countries with limited access to uranium.

(335) The high uranium content in autunite makes it a potential source for nuclear fuel.

(336) The presence of autunite in an area can indicate the potential for uranium mining.

(337) The overexploited uranium mines pose a threat to human health and the environment.

(338) The first isotopes of nobelium were produced by bombarding uranium with neon ions.

(339) The fissile uranium was enriched to increase its concentration of usable isotopes.

(340) Uranium 235 can be converted into plutonium 239 through a process called breeding.

(341) The isotopic composition of uranium 235 can be determined using mass spectrometry.

(342) The mineralisation of uranium is a key factor in the production of nuclear energy.

(343) Fluor is used in the production of uranium, which is used in nuclear power plants.

(344) The boiling water reactor uses fuel rods made of uranium dioxide to generate heat.

(345) Radiogenic lead is produced by the decay of uranium and thorium isotopes in rocks.

(346) Ernest Rutherford's experiments with uranium led to the discovery of radioactivity.

(347) Acid leaching is often used in the production of metals such as copper and uranium.

(348) The use of uranium 235 in power plants helps generate electricity on a large scale.

(349) Uranium 235 is a scarce resource that needs to be conserved for future generations.

(350) The fission of uranium-235 is the primary source of energy in nuclear power plants.

(351) The radioactive decay of uranium in coffinite can lead to the release of radon gas.

(352) The production of a nuclear weapon involves the enrichment of uranium or plutonium.

(353) The presence of thorites in the soil can indicate the presence of uranium deposits.

(354) Fast reactors have the ability to utilize both uranium and thorium as fuel sources.

(355) Uranium 235 is a highly sought-after material for nuclear research and development.

(356) The extraction of uranium 235 from uranium ore requires complex chemical processes.

(357) Beta decay can be observed in certain isotopes of elements like carbon and uranium.

(358) The uranium-lead ratio can also be used to study the evolution of the solar system.

(359) Uranophane is often used in scientific research to study the properties of uranium.

(360) Fluorines are essential in the production of uranium hexafluoride for nuclear fuel.

(361) Uranium 235 is a valuable resource that needs to be carefully managed and regulated.

(362) Silver aside from uranium is a popular choice for making nuclear reactor components.

(363) The radioactive decay of uranium gives off radiation in the form of alpha particles.

(364) Torbernite is often used as a source of uranium in the production of nuclear energy.

(365) Uraninite is a primary ore of uranium and is used in the production of nuclear fuel.

(366) The presence of uranate in groundwater can be an indicator of uranium contamination.

(367) The high energy density of uranium 235 makes it an efficient fuel for nuclear power.

(368) The chemical properties of protactinium are similar to those of uranium and thorium.

(369) Uranium-lead dating has been used to determine the age of the oldest rocks on Earth.

(370) Uranyl chloride is a common starting material for the synthesis of uranium compounds.

(371) The presence of uraninite in an area can indicate the potential for uranium deposits.

(372) The nonfissionable nature of uranium-238 makes it less suitable for nuclear reactors.

(373) The critical mass of uranium 235 is necessary for a sustained nuclear chain reaction.

(374) The use of uranium 235 in nuclear power plants helps reduce reliance on fossil fuels.

(375) The critical mass of uranium 235 is required for sustaining a nuclear chain reaction.

(376) The presence of uraninites in the soil can indicate the presence of uranium deposits.

(377) Alpha particles are emitted by some radioactive elements, such as uranium and radium.

(378) The splitting of uranium-235 atoms through nuclear fission releases multiple neutrons.

(379) The safe handling and storage of uranium is of utmost importance to prevent accidents.

(380) The presence of torbernite in an area can indicate the potential for uranium deposits.

(381) Uranium 235 is a valuable resource for generating electricity in nuclear power plants.

(382) Uranium 235 can undergo spontaneous fission, releasing a significant amount of energy.

(383) Uranium 235 is highly sought after due to its potential for nuclear energy production.

(384) The investor was advised to buy up the futures of uranium before the demand increased.

(385) The pressurized water reactor uses uranium fuel to sustain the nuclear fission process.

(386) Uranium can be converted into plutonium through a process called nuclear transmutation.

(387) Alpha particles are commonly emitted by radioactive elements such as uranium and radon.

(388) The presence of autunite in a rock sample indicates the potential for uranium deposits.

(389) The separation of uranium 235 from uranium 238 is crucial for nuclear power generation.

(390) The controlled chain reaction of uranium 235 is the basis for nuclear power generation.

(391) The stability and abundance of uranium 235 make it a reliable source of nuclear energy.

(392) The largest known deposit of coffinite is in the Grants Uranium District in New Mexico.

(393) The discovery of uranium in the 20th century led to significant scientific advancements.

(394) The pitchblende ore is usually processed to extract uranium for various industrial uses.

(395) The mineralisation of uranium is often found in association with certain types of rocks.

(396) The economic value of uraninites is determined by the uranium content and market demand.

(397) Uranate can be synthesized in the laboratory by reacting uranium with certain chemicals.

(398) Enrico Fermi's experiments with uranium led to the discovery of nuclear chain reactions.

(399) The presence of thorianite in a rock sample indicates the potential for uranium deposits.

(400) The commodity price of uranium has been influenced by changes in nuclear energy policies.

(401) Neptunium is a transuranic element, meaning it has an atomic number greater than uranium.

(402) The extraction and processing of uranium 235 require advanced technological capabilities.

(403) Yellowcake is typically produced from uranium ore through a series of chemical processes.

(404) The presence of uraninite in a rock sample can indicate the potential for uranium mining.

(405) Acid leaching is a well-established method for the extraction of uranium from uranium ore.

(406) The fission of uranium-235 can be sustained in a controlled manner to produce electricity.

(407) Chelation can be used to remove excess uranium from the body in cases of uranium toxicity.

(408) The presence of uranophane indicates the potential for uranium mineralization in the area.

(409) Nucleosynthesis is responsible for the production of heavy elements like gold and uranium.

(410) The discovery of uraninites in a particular area can indicate the presence of uranium ore.

(411) The occurrence of uranate in nature is relatively rare compared to other uranium minerals.

(412) Uranium 235 is a strategic resource for countries seeking to develop nuclear capabilities.

(413) Uranium 235 is a highly regulated material due to its potential for nuclear proliferation.

(414) The enrichment level of uranium 235 determines its suitability for different applications.

(415) The uranium-lead system is one of the most reliable methods for dating rocks and minerals.

(416) The solubility of uranate in water is low, making it difficult to extract uranium from it.

(417) Gummite is a secondary mineral that forms from the alteration of primary uranium minerals.

(418) Becquerel's experiments with uranium ultimately led to the development of the atomic bomb.

(419) The combustibility of uranium is what makes it a potential hazard in nuclear power plants.

(420) The radioisotopic decay of uranium-235 is used in nuclear reactors to generate electricity.

(421) The fluorescence of autunite is caused by the presence of uranium in its crystal structure.

(422) The breakdown of uranium atoms in a nuclear reactor produces a tremendous amount of energy.

(423) Einsteinium is a transuranic element, meaning it has an atomic number greater than uranium.

(424) The occurrence of uranophane in an area may indicate the presence of uranium in groundwater.

(425) Coffinite is often associated with other uranium minerals such as uraninite and pitchblende.

(426) The presence of uraninites in the rock formation indicates the potential for uranium mining.

(427) The enrichment of uranium 235 is a highly regulated process due to its potential for misuse.

(428) Vanadic minerals are often found in association with uranium and other radioactive elements.

(429) Gummite is not a significant source of uranium, but it is of interest to mineral collectors.

(430) The high concentration of uranium in pitchblende makes it a valuable source of nuclear fuel.

(431) Investors track the spot price of uranium to assess the viability of nuclear energy projects.

(432) The study of gummite can provide insights into the migration of uranium in the Earth's crust.

(433) The high energy released during the fission of uranium 235 is harnessed for power generation.

(434) The discovery of autunite in a particular area can indicate the presence of uranium deposits.

(435) Torbernite is a secondary mineral that forms from the alteration of primary uranium minerals.

(436) The occurrence of uranophane in an area suggests the potential for economic uranium resources.

(437) Uranyl carbonate complexes are important intermediates in the extraction of uranium from ores.

(438) The presence of uranate in soil samples can indicate the potential for uranium mineralization.

(439) Acid leaching is a well-established technique for the extraction of uranium from ore deposits.

(440) The recovery factor of the uranium deposit was quite high due to efficient extraction methods.

(441) Uranium 235 can be converted into uranium hexafluoride for easier handling and transportation.

(442) Autunite is known for its high levels of uranium and can be used in nuclear energy production.

(443) Becquerel's experiments revealed that uranium emitted rays that could penetrate solid objects.

(444) The nonfissionable nature of uranium-235 makes it highly suitable for nuclear power generation.

(445) The discovery of uranophane in a particular area can indicate the presence of uranium deposits.

(446) Phosphorites can also contain valuable trace elements, such as uranium and rare earth elements.

(447) The actinide series includes elements such as uranium and plutonium, which are highly unstable.

(448) The mineralization of uranium in the earth's crust is of interest for nuclear energy production.

(449) The recovery factor of the abandoned uranium mine was found to be higher than initially thought.

(450) Precambrian rocks are important sources of valuable minerals, including gold, iron, and uranium.

(451) The presence of coffinite in a rock sample can indicate the potential for uranium mineralization.

(452) The chemical composition of samarskite is complex and includes elements like uranium and thorium.

(453) The radioactive decay of uranium gives off radiation that can be harnessed for energy production.

(454) Fluorin is used in the production of uranium hexafluoride, which is used in the nuclear industry.

(455) The study of coffinite can provide insights into the formation and evolution of uranium deposits.

(456) The radiogenic decay of uranium and thorium produces helium gas, which can be used to date rocks.

(457) The global demand for uranium 235 continues to increase as more countries invest in nuclear power.

(458) The fission of uranium-235 can release several million times more energy than a chemical reaction.

(459) Niels Bohr's experiments with uranium isotopes paved the way for the discovery of nuclear fission.

(460) The fissile uranium was stored in specially designed containers to prevent accidental criticality.

(461) The pressurized water reactor uses enriched uranium as fuel to sustain the nuclear chain reaction.

(462) The pressurized water reactor is fueled by uranium pellets that undergo fission to release energy.

(463) The production of actinon involves the extraction of uranium and subsequent purification processes.

(464) Uranium 235 is a heavy metal with unique properties that make it suitable for nuclear applications.

(465) Uranophane is a secondary mineral that forms as a result of alteration of primary uranium minerals.

(466) Uranophane is often associated with other secondary uranium minerals such as autunite and torbernite.

(467) The nonfissionable nature of thorium makes it a potential alternative to uranium in nuclear reactors.

(468) Lawrencium is a member of the actinide series, which includes elements such as uranium and plutonium.

(469) Acid leaching is employed in the recovery of uranium from low-grade ores for nuclear fuel production.

(470) The radioactive nature of coffinite makes it a significant mineral of interest in uranium exploration.

(471) Implementing a policy of reducing the use of highly enriched uranium can help reduce waste production.

(472) Coffinite is often found in association with other uranium minerals such as uraninite and pitchblende.

(473) Gummite is composed of hydrated uranium oxide and can contain other elements such as lead and thorium.

(474) The chemical element uranium is used as fuel in nuclear reactors and has potential for nuclear weapons.

(475) Protactinium is used in nuclear reactors as a fuel and as a precursor to the production of uranium-233.

(476) Uranium-lead dating is a powerful tool for understanding the history of the Earth and the solar system.

(477) Investors track the spot price of uranium to assess the potential profitability of nuclear power plants.

(478) The nuclear power plant uses uranium to irradiate up water and produce steam for electricity generation.

(479) Lawrencium is classified as a transuranium element, meaning it has an atomic number greater than uranium.

(480) The country's geological reserves of uranium make it a significant player in the nuclear energy industry.

(481) Torbernite is one of several minerals that can be formed through the oxidation of uranium-bearing minerals.

(482) The radiometrically measured radiation levels were found to be highest in the vicinity of the uranium mine.

(483) The fissioning of a single uranium atom can release millions of times more energy than a chemical reaction.

(484) Einsteinium is part of the actinide series, which includes other heavy elements like uranium and plutonium.

(485) The fluorin gas is used in the production of uranium tetrafluoride, which is used in the nuclear fuel cycle.

(486) The occurrence of coffinite in certain regions can be indicative of past or present uranium mining activities.

(487) The element uranium is used as fuel in nuclear reactors and is also used in the production of nuclear weapons.

(488) The radioactivity of coffinite can pose health risks to those working in uranium mines or handling the mineral.

(489) The biosystem of a nuclear power plant involves the controlled fission of uranium atoms to produce electricity.

(490) Fluorine is used in the production of uranium hexafluoride, which is a crucial compound in the nuclear industry.

(491) Fluorine, which is a key component in the production of uranium hexafluoride, is used in nuclear fuel processing.

(492) Coffinite is not a commercially important mineral, but it is of interest to scientists studying uranium deposits.

(493) The investor decided to buy up the futures of uranium to take advantage of the growing demand for nuclear energy.

(494) The government is investing in the exploration of the geological reserves of uranium for nuclear power generation.

(495) The occurrence of uranate in certain geological formations can be indicative of past uranium mineralization events.

(496) Fluorine is used in the production of uranium hexafluoride, and it is also used in the synthesis of pharmaceuticals.

(497) The radioactive decay of uranium in the Earth's crust emits radiation that contributes to background radiation levels.

(498) The alpha-particle is a type of particle that is emitted by some types of natural sources, such as radium and uranium.

(499) Fluorine is used in the production of uranium tetrafluoride, and it is also used in the synthesis of organic compounds.

(500) Fluorine is used in the production of uranium hexafluoride, and it is also used in the manufacturing of semiconductors.

(501) The ionising radiation from the radioactive decay of uranium can be used to generate electricity in nuclear power plants.

(502) Fluorine, which is a corrosive gas, is used in the production of uranium hexafluoride, which is used in nuclear reactors.

(503) The company is evaluating the geological reserves of uranium to assess the feasibility of establishing a nuclear power plant.

(504) The formation of coffinite is often associated with hydrothermal processes and the interaction of fluids with uranium-bearing rocks.

(505) The study of coffinite and other uranium minerals is important for understanding the behavior of radioactive elements in the Earth's crust.

(506) Radon is a radioactive gas that is produced by the decay of uranium in soil and rocks, which can seep into homes through cracks and gaps in the foundation.

(507) Although einsteinium is a man-made element, it occurs naturally in trace amounts in uranium ores, and it can be produced by bombarding plutonium with neutrons.

(508) Although fluorine is a gas at room temperature, it can be liquefied under pressure, and it is used in the production of uranium, which is a radioactive element.

(509) Alpha particles are produced by the decay of heavy elements such as uranium and plutonium, and they can be detected using specialized equipment such as Geiger counters.

(510) Becquerel's experiments with uranium salts showed that they emitted alpha, beta, and gamma rays, and this led to the development of radiation therapy for cancer treatment.

(511) Becquerel's experiments with uranium salts showed that they emitted rays that could penetrate through matter, and this discovery paved the way for the development of X-rays.

(512) When Becquerel accidentally left a piece of uranium on a photographic plate, he noticed that the plate had been exposed, and this led him to discover the phenomenon of radioactivity.

(513) Becquerel's experiments with uranium showed that it emitted three types of radiation, and this led to the development of the Geiger counter, which is still used today to detect radiation.

(514) Although fluorine is a toxic gas, it is also used in the production of uranium hexafluoride, which is a key component in nuclear fuel, and it is also used in the production of rocket propellants.

(515) Breeder reactors, which can use a variety of fuels, including thorium and uranium, offer the potential for greater energy independence and security, but they also require careful monitoring and regulation to ensure their safety and security.

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