Ionic in a sentence

(1) Gold has a 1+ ionic charge.

(2) Zinc has a 2+ ionic charge.

(3) Silver has a 1+ ionic charge.

(4) Barium has a 2+ ionic charge.

(5) Copper has a 1+ ionic charge.

(6) Iodine has a -1 ionic charge.

(7) Bromins can form ionic bonds.

(8) Calcium has a 2+ ionic charge.

(9) The ionic charge of neon is 0.

(10) Bromine has a -1 ionic charge.

Ionic sentence

(11) Aluminum has a 3+ ionic charge.

(12) The ionic charge of zinc is +2.

(13) The ionic charge of gold is +3.

(14) Fluorine has a -1 ionic charge.

(15) Magnesium has a 2+ ionic charge.

(16) Potassium has a 1+ ionic charge.

(17) Manganese has a 2+ ionic charge.

(18) The ionic charge of helium is 0.

(19) Potassium has a +1 ionic charge.

(20) The ionic charge of sodium is +1.

Ionic make sentence

(21) The ionic charge of oxygen is -2.

(22) The ionic charge of sulfur is -2.

(23) The ionic charge of iodine is -1.

(24) The ionic charge of carbon is -4.

(25) The ionic charge of silver is +1.

(26) The ionic charge of nickel is +2.

(27) The ionic charge of barium is +2.

(28) The ionic charge of bromine is -1.

(29) Calcium has an ionic charge of +2.

(30) The ionic charge of chlorine is -1.

Sentence of ionic

(31) The ionic charge of nitrogen is -3.

(32) The ionic charge of fluorine is -1.

(33) The ionic charge of hydrogen is +1.

(34) The ionic charge of selenium is -2.

(35) The ionic charge of aluminum is +3.

(36) Fluorine has an ionic charge of -1.

(37) Sodium ions have a +1 ionic charge.

(38) Zinc can have an ionic charge of +2.

(39) Magnesium has an ionic charge of +2.

(40) Potassium has an ionic charge of +1.

Ionic meaningful sentence

(41) The ionic charge of magnesium is +2.

(42) Sulfate ions have a 2- ionic charge.

(43) The ionic charge of phosphorus is -3.

(44) Chloride ions have a -1 ionic charge.

(45) Aluminum ions have a 3+ ionic charge.

(46) Phosphate ions have a 3- ionic charge.

(47) Carbonate ions have a 2- ionic charge.

(48) Iron can have a 2+ or 3+ ionic charge.

(49) Potassium ions have a +1 ionic charge.

(50) Oxygen typically has a 2- ionic charge.

Ionic sentence examples

(51) Sulfur typically has a 2- ionic charge.

(52) The backbond in this molecule is ionic.

(53) Copper can have a 1+ or 2+ ionic charge.

(54) The ionic liquid had a low melting point.

(55) Zinc can have an ionic charge of +2 or +3.

(56) The ionic liquid had a low vapor pressure.

(57) The ionic liquid had a high boiling point.

(58) Oxygen typically has an ionic charge of -2.

(59) Sulfur typically has an ionic charge of -2.

(60) Iron ions can have a 2+ or 3+ ionic charge.

Sentence with ionic

(61) Copper can have an ionic charge of +1 or +2.

(62) Nickel can have an ionic charge of +2 or +3.

(63) She styled her hair in an elegant ionic bun.

(64) The ionic compound had a high melting point.

(65) Phosphorus can have a 3- or 5- ionic charge.

(66) The ionic compound dissolved easily in water.

(67) Nitrogen typically has an ionic charge of -3.

(68) Covalent bonds are stronger than ionic bonds.

(69) The ionic compound formed a crystalline solid.

(70) Blowdryers with ionic technology reduce frizz.

Use ionic in a sentence

(71) Phosphorus typically has an ionic charge of -3.

(72) Carbon does not typically have an ionic charge.

(73) Ionomers are polymers that contain ionic groups.

(74) The onium cation is often used in ionic liquids.

(75) Hydrides can be classified as ionic or covalent.

(76) Nitrate ions have a single negative ionic charge.

(77) Ionic bonds are often found in salts and minerals.

(78) A binary compound can be either ionic or covalent.

(79) Chloride ions have a single negative ionic charge.

(80) Ammonium ions have a single positive ionic charge.

Sentence using ionic

(81) Alkaline earth metals readily form ionic compounds.

(82) Hydroxide ions have a single negative ionic charge.

(83) Anions are attracted to cations in ionic compounds.

(84) Polyatomic ions are often found in ionic compounds.

(85) Divalents can form ionic bonds with monovalent ions.

(86) Ionic bonds are important in the formation of salts.

(87) Positive ions are commonly found in ionic compounds.

(88) Ionic compounds are usually hard and brittle solids.

(89) Delocalization can occur in ionic compounds as well.

(90) Nitrogen has a 3- ionic charge in certain compounds.

Ionic example sentence

(91) The ionic charge of lead can vary between 2+ and 4+.

(92) Cations are often found in salts and ionic compounds.

(93) Monatomic ions are commonly found in ionic compounds.

(94) Ionic bonding occurs between a metal and a non-metal.

(95) Ionic compounds have high melting and boiling points.

(96) Electrovalent bonding is also known as ionic bonding.

(97) The ionic compound formed a crystal lattice structure.

(98) Ionises can form ionic bonds with other ions or atoms.

(99) Carbides can be classified as either covalent or ionic.

(100) The alkaline earth metals readily form ionic compounds.

Sentence with word ionic

(101) Hydrogen bonds are weaker than ionic or covalent bonds.

(102) Ionic bonds are generally stronger than covalent bonds.

(103) Ionic bonds are typically stronger than hydrogen bonds.

(104) Ionic bonds are typically stronger than covalent bonds.

(105) Ionic bonds are easily broken in the presence of water.

(106) Ionic bonds are important in the formation of minerals.

(107) The alkaline-earths form ionic compounds with halogens.

(108) Cations are commonly found in salts and ionic compounds.

(109) The ionic charge of tin can vary, but commonly it is +4.

(110) The ionic charge of nitrogen is -3 in certain compounds.

Sentence of ionic

(111) Atoms can form covalent or ionic bonds with other atoms.

(112) The ionic equation showed the complete chemical reaction.

(113) The ionic strength of the solution affected the pH level.

(114) Ionic compounds are commonly found in minerals and rocks.

(115) The ionic charge of lead can vary, but commonly it is +2.

(116) Ionic solutions can be used as electrolytes in batteries.

(117) Ionomers are a type of polymer that contain ionic groups.

(118) The student learned about the bonding of ionic compounds.

(119) I love using the ionic framework for building mobile apps.

(120) The ionic compound exhibited high electrical conductivity.

Ionic used in a sentence

(121) The ionic compound displayed strong intermolecular forces.

(122) Intramolecular bonding can be covalent or ionic in nature.

(123) Electrovalent compounds are also known as ionic compounds.

(124) The ionic bond between the two atoms was incredibly strong.

(125) The ionic medication is known for its minimal side effects.

(126) The ionic medication is known for its long-lasting effects.

(127) When an ionic solid is melted, it can break down into ions.

(128) Ionic compounds often have high melting and boiling points.

(129) When halogens react with metals, they form ionic compounds.

(130) The ionic bond was formed through the transfer of electrons.

Ionic sentence in English

(131) The interatomic bonding in this compound is primarily ionic.

(132) Copper can have multiple ionic charges, including +1 and +2.

(133) Carbon typically does not form ions and has no ionic charge.

(134) The ionic charge of mercury can vary, but commonly it is +2.

(135) Ionic compounds can conduct electricity in the molten state.

(136) Ionic medication is commonly used to treat heart conditions.

(137) Ionic liquids are salts that are liquid at room temperature.

(138) Ionic bonds are often represented using Lewis dot structures.

(139) Iis a term used in chemistry to represent the ionic strength.

(140) The ionic medication is known for its fast-acting properties.

(141) Ionic compounds are formed when atoms gain or lose electrons.

(142) Ionic substances conduct electricity when dissolved in water.

(143) Van der Waals forces are weaker than covalent or ionic bonds.

(144) Ionic medication can be administered through an IV or orally.

(145) The ionic exchange between the two substances released energy.

(146) The ammonia will dissolve into its ionic form in the solution.

(147) Ionic bonds are typically formed between metals and nonmetals.

(148) Electrovalent compounds have a high degree of ionic character.

(149) The ionic bond between sodium and chlorine creates table salt.

(150) Ionic compounds are often used as pigments in paints and dyes.

(151) Divalents play a crucial role in the formation of ionic bonds.

(152) Solvation is a key step in the dissolution of ionic compounds.

(153) The Van Der Waals force is weaker than ionic or covalent bonds.

(154) Sodium chloride is an example of a compound with an ionic bond.

(155) Phenolate salts are soluble in water due to their ionic nature.

(156) Ionic compounds split up into ions when dissolved in a solvent.

(157) The ionic radius increased as you moved down the periodic table.

(158) Alkali earth metals readily form ionic compounds with nonmetals.

(159) Cations play a crucial role in the formation of ionic compounds.

(160) The intermolecular attractions between ions form ionic compounds.

(161) The ionic radius of the anion was larger than that of the cation.

(162) The van der Waals forces are weaker than covalent or ionic bonds.

(163) Valency plays a crucial role in the formation of ionic compounds.

(164) Polyatomic compounds can exhibit both ionic and covalent bonding.

(165) The atomical bonding between the atoms in the compound was ionic.

(166) Tetratomic molecules can exhibit both covalent and ionic bonding.

(167) Delocalized charges can lead to the formation of ionic compounds.

(168) Carbides can be classified as either ionic or covalent compounds.

(169) Autoionization is a key step in the formation of ionic compounds.

(170) Ionic liquids are used as solvents in various chemical reactions.

(171) Chemical bonds can be classified as ionic, covalent, or metallic.

(172) Ionic compounds are held together by electrostatic chemical bonds.

(173) The ionic radius of the cation was smaller than that of the anion.

(174) The ionic radius decreased as you moved across the periodic table.

(175) The pyridinium ion is often used as a counterion in ionic liquids.

(176) Electrovalence is a measure of the strength of ionic interactions.

(177) The formation of an ionic bond involves the transfer of electrons.

(178) Ionic compounds are often used as catalysts in chemical reactions.

(179) Alkaline earth metals readily form ionic compounds with nonmetals.

(180) Ionic compounds are typically formed between metals and nonmetals.

(181) The transfer of electrons is a key characteristic of an ionic bond.

(182) The strength of an ionic bond can be predicted using Coulomb's law.

(183) Ionic bonds are often found in compounds with a high melting point.

(184) Monatomic ions can combine to form ionic compounds with other ions.

(185) The ionic medication is known for its anti-inflammatory properties.

(186) The ionic charge of iron can vary depending on its oxidation state.

(187) Ionic bonding results in the formation of a stable crystal lattice.

(188) Electronegative atoms tend to form negative ions in ionic compounds.

(189) The chalcogen group elements can form both covalent and ionic bonds.

(190) The apolar compound does not have any ionic or polar covalent bonds.

(191) The divalency of the ion influences its ability to form ionic bonds.

(192) Ionic interactions play a crucial role in many biological processes.

(193) Anacreon's poetry was written in the Ionic dialect of ancient Greek.

(194) Ionic compounds split up into ions when they are dissolved in water.

(195) The ionic strength of the solution affected the rate of the reaction.

(196) The ionic bond was formed through the attraction of opposite charges.

(197) An ionic bond is formed when electrons are transferred between atoms.

(198) Ionic bonds result in the formation of charged particles called ions.

(199) Electrovalence is often associated with the formation of ionic bonds.

(200) The ionic radius of an atom determines its size in a crystal lattice.

(201) Ionic compounds are often soluble in water due to their polar nature.

(202) The bivalences of metals determine their ability to form ionic bonds.

(203) Ionic conductivity is the ability of ions to move through a material.

(204) Covalent compounds are generally less conductive than ionic compounds.

(205) Pyridinium-based ionic liquids have unique physicochemical properties.

(206) Ionic bonds are often found in compounds with a metal and a non-metal.

(207) The formation of an ionic bond involves the loss or gain of electrons.

(208) Nonelectrolytes do not contribute to the ionic strength of a solution.

(209) The lattice energy of an ionic compound is a measure of its stability.

(210) Hairdriers with ionic technology help reduce frizz and static in hair.

(211) The properties of ionic compounds are determined by their ionic bonds.

(212) The ionic bond between the metal and non-metal atoms was highly stable.

(213) Valence electrons are responsible for the formation of ionic compounds.

(214) Ionic medication is commonly used to treat various types of infections.

(215) The ionic medication is commonly used in the treatment of chronic pain.

(216) Ionic compounds are often used in the production of ceramics and glass.

(217) Alkaline-earths have a tendency to form ionic compounds with nonmetals.

(218) Ionic radii decrease as you move across a period on the periodic table.

(219) Ionic bonds are important in the formation of many biological molecules.

(220) Electronegative atoms are more likely to form anions in ionic compounds.

(221) Ionic compounds exhibit electrovalence due to the transfer of electrons.

(222) Autoionization is an essential step in the formation of ionic compounds.

(223) The ionic charge of the particle determined its behavior in the solution.

(224) The ionic exchange between the two substances resulted in a color change.

(225) The ionizes reaction is responsible for the formation of ionic compounds.

(226) Ionic bonds are important in determining the properties of many minerals.

(227) Ionic bonds play a crucial role in the functioning of biological systems.

(228) Electrovalency is often used to explain the formation of ionic compounds.

(229) The conductivity of ionic solutions depends on the concentration of ions.

(230) The pharmacist explained the benefits of ionic medication to the patient.

(231) The ionic exchange between the two substances created a chemical reaction.

(232) The ionic compound was composed of positively and negatively charged ions.

(233) The strength of an ionic bond depends on the charges of the ions involved.

(234) Ionic bonds are responsible for the solubility of many compounds in water.

(235) The presence of ionic groups in ionomers enhances their thermal stability.

(236) The properties of ionic compounds differ from those of covalent compounds.

(237) The properties of ionic liquids can be tailored by choosing specific ions.

(238) The formation of an ionic bond involves the transfer of valence electrons.

(239) In some cases, sulfate can fill in for chloride to maintain ionic balance.

(240) The bivalency of chlorine allows it to form both ionic and covalent bonds.

(241) Sodium chloride is an example of a compound held together by an ionic bond.

(242) The formation of an ionic bond involves the complete transfer of electrons.

(243) Chemical attraction between ions leads to the formation of ionic compounds.

(244) The electropositive nature of calcium allows it to form strong ionic bonds.

(245) When an ionic compound is dissolved in a solvent, it breaks down into ions.

(246) Calcium chelation can impact the pH and ionic balance of biological fluids.

(247) Chemical bonds can be classified as ionic, covalent, metallic, or hydrogen.

(248) The ionic medication is highly effective in treating respiratory conditions.

(249) Ionicity is responsible for the conductivity of ionic compounds in solution.

(250) The strength of an ionic bond is directly related to the degree of ionicity.

(251) Ionic interactions are important in determining the solubility of compounds.

(252) The valency of chlorine is one, allowing it to form ionic bonds with metals.

(253) The doctor prescribed an ionic medication to treat my electrolyte imbalance.

(254) The ionic conductivity of the material made it suitable for use in batteries.

(255) The ionic strength of the solution influenced the solubility of the compound.

(256) The formation of an ionic bond results in the formation of a stable compound.

(257) The strength of an ionic bond is influenced by the size of the ions involved.

(258) The n-s electron transfer is responsible for the formation of the ionic bond.

(259) The nurse carefully monitored the patient's reaction to the ionic medication.

(260) The bonding in hydrides is often covalent, but can also be ionic or metallic.

(261) The internuclear distance in a covalent bond is shorter than in an ionic bond.

(262) The solvation of ionic compounds in water results in the dissociation of ions.

(263) Ionic bonds are responsible for the electrical conductivity of many compounds.

(264) If you add hemihydrate to a solution, it will increase the ionic conductivity.

(265) The solubilities of most ionic compounds increase with increasing temperature.

(266) Ionic reactions involve the transfer of electrons from one species to another.

(267) Decyl glucoside is a non-ionic surfactant that is gentle on the skin and eyes.

(268) Conductometric measurements can be used to study the behavior of ionic liquids.

(269) The patient's condition improved after starting the course of ionic medication.

(270) PVP is a non-ionic polymer that is compatible with a wide range of ingredients.

(271) Hydrotropic interactions can be affected by the ionic strength of the solution.

(272) Ionic conductivity is a measure of how easily ions can move through a material.

(273) Ionic compounds have high melting and boiling points due to their strong bonds.

(274) The tribromide ion has a negative charge and is often found in ionic compounds.

(275) The force of attraction between a positive and negative ion forms an ionic bond.

(276) Electronegative atoms have a greater tendency to form anions in ionic compounds.

(277) An ionic bond is formed when a metal atom donates electrons to a non-metal atom.

(278) The pharmacist explained the benefits of using ionic medication for pain relief.

(279) The patient reported feeling more energetic after starting the ionic medication.

(280) The presence of ionic groups in ionomers enhances their electrical conductivity.

(281) The crystal lattice structure of ionic compounds contributes to their stability.

(282) Ionic compounds can form when atoms of different elements react with each other.

(283) The elements in an ionic compound are held together by electrostatic attraction.

(284) The patient was given an ionic medication to help regulate their blood pressure.

(285) The crystal lattice structure of an ionic compound is a result of the ionic bond.

(286) The strength of an ionic bond can be determined by the size of the ions involved.

(287) The strength of an ionic bond can be weakened by the presence of water molecules.

(288) The behavior of polyelectrolytes in solution is influenced by the ionic strength.

(289) The electropositive nature of strontium allows it to form stable ionic compounds.

(290) The patient's condition stabilized after being administered the ionic medication.

(291) The structure of an ionic compound can be determined using X-ray crystallography.

(292) The perilymphatic fluid helps maintain the proper ionic balance in the inner ear.

(293) Ionic bonds are strong electrostatic attractions between oppositely charged ions.

(294) The halides in this array can be classified as either ionic or covalent compounds.

(295) The peripteros was influenced by the earlier Doric and Ionic architectural orders.

(296) The crystal lattice structure of ionic compounds is due to the strong ionic bonds.

(297) The strength of an ionic bond depends on the charge and size of the ions involved.

(298) Electrovalency is a key factor in determining the conductivity of ionic compounds.

(299) The doctor monitored the patient's progress closely while on the ionic medication.

(300) The diffusivities of ions in a solid electrolyte determine its ionic conductivity.

(301) The properties of an ionic compound are determined by the arrangement of its ions.

(302) The formation of an ionic bond involves the complete transfer of valence electrons.

(303) The valency of an element can be used to determine its charge in an ionic compound.

(304) The boiling-points of ionic compounds are generally higher than covalent compounds.

(305) The electronegativity of an element determines its ability to form ionic compounds.

(306) The conductivities of ionic compounds are due to the movement of charged particles.

(307) The doctor prescribed an ionic medication to help alleviate the patient's symptoms.

(308) Ionic liquids have unique properties that make them useful in various applications.

(309) Desolvation is a common phenomenon in chemical reactions involving ionic compounds.

(310) Greek architecture is known for its use of the Doric, Ionic, and Corinthian orders.

(311) The conductivity of an ionic solution depends on the concentration of ions present.

(312) The valency of calcium is two, allowing it to form ionic bonds with other elements.

(313) Formal charge is a concept that is used to explain the formation of ionic compounds.

(314) The electrovalency of an atom can be represented by its charge in an ionic compound.

(315) The doctor explained the mechanism of action of the ionic medication to the patient.

(316) The ionic medication is commonly used in emergency situations to stabilize patients.

(317) The crystal structure of an ionic compound is determined by its arrangement of ions.

(318) The strength of an ionic bond depends on the charges and sizes of the ions involved.

(319) Hydrides can be classified as ionic or covalent, and they have different properties.

(320) The doctor recommended an ionic medication to help with the patient's muscle spasms.

(321) In a double decomposition reaction, the reactants are typically two ionic compounds.

(322) The properties of an ionic compound are determined by the strength of the ionic bond.

(323) Halogens can form ionic compounds with metals, and covalent compounds with nonmetals.

(324) Ionic bonds are responsible for the high melting and boiling points of many compounds.

(325) The conductivity of ionic compounds is due to the movement of ions within the lattice.

(326) The conductances of the electrolytes were measured to assess their ionic conductivity.

(327) Ionic compounds exhibit electrovalency due to the transfer of electrons between atoms.

(328) The patient's recovery was expedited with the help of the prescribed ionic medication.

(329) The cohesive energy of a metallic bond is typically higher than that of an ionic bond.

(330) Ionic bonds are important in the formation of many minerals found in the Earth's crust.

(331) The formation of an ionic bond involves the attraction between oppositely charged ions.

(332) The formation of an ionic bond results in the formation of a crystal lattice structure.

(333) The doctor adjusted the dosage of the ionic medication based on the patient's response.

(334) The properties of ionic compounds can be predicted using principles of crystallography.

(335) The solubility of phenoxide salts in water is generally high due to their ionic nature.

(336) The columbic interaction between two ions can result in the formation of an ionic bond.

(337) Alkaline metals are known for their ability to form strong ionic bonds with non-metals.

(338) The dipolar interaction between two ions can lead to the formation of an ionic compound.

(339) The pharmacist ensured that the patient had a sufficient supply of the ionic medication.

(340) Sodiums are highly soluble in water and can form strong ionic bonds with other elements.

(341) Ionic medication is often used in conjunction with other treatments for optimal results.

(342) The binding energy of a crystal lattice is the energy required to break its ionic bonds.

(343) The oxidation state of an element can be used to determine its charge in ionic compounds.

(344) The doctor recommended an ionic medication to help regulate the patient's blood pressure.

(345) The architect combined the doric and ionic orders to create a unique and striking design.

(346) Ionic compounds are often soluble in water due to their ability to form hydration shells.

(347) The stability of an ionic compound is due to the strong electrostatic forces between ions.

(348) The solvation of solutes in ionic liquids can result in enhanced solubility and reactivity.

(349) Ionic compounds have high melting and boiling points due to the strength of the ionic bond.

(350) The pharmacist emphasized the importance of completing the full course of ionic medication.

(351) The patient's symptoms subsided after a few days of taking the prescribed ionic medication.

(352) The interionic attraction between the ions led to the formation of a stable ionic compound.

(353) Electrovalency is a property that can be used to explain the brittleness of ionic compounds.

(354) The doctor recommended an ionic medication to help improve the patient's cognitive function.

(355) The pharmacist advised the patient to avoid certain foods while taking the ionic medication.

(356) The doctor recommended an ionic medication to help improve the patient's overall well-being.

(357) The pH electrode needed calibration after being used on a solution with high ionic strength.

(358) Covalent compounds tend to have lower melting and boiling points compared to ionic compounds.

(359) The formation of an ionic bond involves the transfer of electrons from a metal to a nonmetal.

(360) The properties of an ionic compound are determined by the arrangement of ions in the lattice.

(361) The patient experienced significant improvement after taking the prescribed ionic medication.

(362) The patient experienced relief from their symptoms shortly after taking the ionic medication.

(363) The doctor explained the potential risks and benefits of the ionic medication to the patient.

(364) Decyl glucoside is a non-ionic surfactant that is biodegradable and environmentally friendly.

(365) When alkaline-earths react with halogens, they form ionic compounds with high melting points.

(366) Ionic bonds are typically formed between elements with large differences in electronegativity.

(367) The formation of an ionic bond results in the formation of a stable crystal lattice structure.

(368) The strength of an ionic bond can be influenced by the presence of other ions in the compound.

(369) Ionic bonds are typically formed between elements in the s and p blocks of the periodic table.

(370) The lanthanide contraction refers to the decrease in atomic and ionic radii across the series.

(371) The ionicity of a compound can be used to classify it as either an ionic or covalent compound.

(372) Ionic bonds are characterized by the attraction between positively and negatively charged ions.

(373) Ionic bonds are typically formed between elements with a large difference in electronegativity.

(374) The columbic attraction between a cation and an anion is what holds an ionic compound together.

(375) Ionic bonds play a crucial role in the structure and function of many biological macromolecules.

(376) The properties of an ionic compound can be predicted based on the charges and sizes of its ions.

(377) The ionic groups in ionomers allow them to be easily processed and molded into different shapes.

(378) The pharmacist provided detailed instructions on how to properly administer the ionic medication.

(379) Alkaline-earths, which have a low electronegativity, readily form ionic compounds with nonmetals.

(380) The dipolar interaction between two charged particles can lead to the formation of an ionic bond.

(381) The formation of an ionic bond involves the transfer of valence electrons from one atom to another.

(382) The formation of an ionic bond results in the formation of a stable compound with a neutral charge.

(383) The apophyge is typically more pronounced in Doric columns compared to Ionic or Corinthian columns.

(384) Electrovalency is a property that can be used to explain the conductivity of molten ionic compounds.

(385) Arrhenius' theory of electrolytic dissociation explained the behavior of ionic compounds in solution.

(386) Phosphonium-based ionic liquids have unique properties that make them useful in various applications.

(387) When alkaline-earths combine with halogens, they form ionic compounds known as alkaline-earth halides.

(388) The properties of polyelectrolytes can be tuned by adjusting the pH or ionic strength of the solution.

(389) The pharmacist provided a detailed list of potential side effects associated with the ionic medication.

(390) The chemical attraction between the metal and non-metal resulted in the formation of an ionic compound.

(391) The entablature, which is a key component of the Ionic order, features volutes and egg-and-dart motifs.

(392) The study of ionics is essential for understanding the behavior of ionic solutions in biological systems.

(393) The interionic interactions between the cations and anions determine the stability of the ionic compound.

(394) Electrolytic dissociation is the process by which an ionic compound breaks down into its constituent ions.

(395) When alkaline-earths react with nonmetals, they form ionic compounds with high melting and boiling points.

(396) The interionic distance between the ions in the crystal lattice determines the strength of the ionic bond.

(397) The use of ionic liquids as extractants has gained popularity due to their low toxicity and high selectivity.

(398) The electrophoretic behavior of a molecule can be altered by changing the pH or ionic strength of the solution.

(399) Electrovalency is a property that can be used to explain the formation of crystal structures in ionic compounds.

(400) Electrovalency is a property that can be used to explain the high melting and boiling points of ionic compounds.

(401) The pharmacist ensured that the patient understood the potential interactions of the ionic medication with other drugs.

(402) The formation of an ionic bond occurs when one atom donates an electron to another atom, resulting in the formation of an ion.

(403) The doric order is typically used in the lower levels of a building, while the ionic and corinthian orders are used in the upper levels.

(404) The Doric order is typically used for the lower levels of a building, while the Ionic and Corinthian orders are used for the upper levels.

(405) The formation of an ionic bond occurs when one atom loses an electron and another gains an electron, and this results in the creation of a stable compound that has a net charge of zero.

(406) The properties of an ionic compound, such as its melting point, boiling point, and solubility, depend on the strength of the electrostatic forces that hold the ions together, and this can be influenced by factors such as the size and charge of the ions.

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