Dipole in a sentence

(1) The dipole moment of water is 1.85 D.

(2) The dipole moment of benzene is zero.

(3) The dipole moment of ammonia is 1.47 D.

(4) The dipole moment of acetone is 2.88 D.

(5) The dipole moment of ethanol is 1.69 D.

(6) The dipole moment of methanol is 1.70 D.

(7) Isomers can have different dipole moments.

(8) The dipole moment of methane is also zero.

(9) The dipole moment of toluene is also zero.

(10) The dipole moment of chloroform is 1.15 D.

Dipole sentence

(11) The dipole moment of acetic acid is 1.74 D.

(12) Tautomers can have different dipole moments.

(13) The dipole moment of carbon dioxide is zero.

(14) The dipole moment of formaldehyde is 2.33 D.

(15) The yagi antenna is a type of dipole antenna.

(16) The dipole moment of nitrous oxide is 0.17 D.

(17) The dipole moment of sulfur dioxide is 1.62 D.

(18) Nonpolar molecules do not have a dipole moment.

(19) The backbond in this molecule is dipole-dipole.

(20) The amidin molecule has a strong dipole moment.

Dipole make sentence

(21) The dipole moment of ethylene glycol is 2.23 D.

(22) Non-polar molecules do not have a dipole moment.

(23) A bar magnet is an example of a magnetic dipole.

(24) The dipole moment of carbon monoxide is 0.122 D.

(25) The dipole moment of hydrogen sulfide is 0.97 D.

(26) The dipole moment of hydrogen chloride is 1.03 D.

(27) The dipole moment of hydrogen fluoride is 1.82 D.

(28) The apolar molecule does not have a dipole moment.

(29) The dipole moment of dimethyl sulfoxide is 3.96 D.

(30) Decane is a nonpolar molecule with no dipole moment.

Sentence of dipole

(31) The protic compound exhibited a strong dipole moment.

(32) The backbond in this molecule is dipole-dipole bonded.

(33) The magnetic dipole is a fundamental concept in physics.

(34) The dipole moment of a polar molecule is always non-zero.

(35) The strength of a dipole moment is measured in Debye units.

(36) The debye is used to measure the dipole moment of a molecule.

(37) The dipole moment of a molecule is a measure of its polarity.

(38) The sum of all dipole moments in the 'dipoles' array is zero.

(39) The concept of an electric dipole is commonly used in physics.

(40) The debye is used to calculate the dipole moment of a molecule.

Dipole meaningful sentence

(41) The word dipole refers to a molecule with two opposite charges.

(42) Each element in the 'dipoles' array represents a dipole moment.

(43) Van Der Waals forces are weaker than dipole-dipole interactions.

(44) The dipole-dipole interaction is a type of intermolecular force.

(45) The word debye is a unit used to measure electric dipole moments.

(46) The dipole moment of water is higher than that of carbon dioxide.

(47) The Earth's magnetic field can be described as a magnetic dipole.

(48) The electric dipole moment is measured in units of coulomb-meter.

(49) The feedpoint was positioned at the center of the dipole antenna.

(50) The line-of-force of the electric dipole was parallel to the axis.

Dipole sentence examples

(51) The hertzian dipole moment was calculated using quantum mechanics.

(52) The isomeric forms of a molecule can have different dipole moments.

(53) The bipyramidal geometry of the molecule affects its dipole moment.

(54) The apolar compound does not exhibit any dipole-dipole interactions.

(55) The debye is a unit used to measure the dipole moment in a molecule.

(56) The tautomeric forms of a molecule can have different dipole moments.

(57) The dipole moment of a molecule is a measure of its overall polarity.

(58) The equipotential lines curved around a dipole in a non-uniform field.

(59) The electric field around an electric dipole is strongest at the ends.

(60) The second moment of a magnetic dipole determines its magnetic moment.

Sentence with dipole

(61) The tetrahedral geometry of the molecule influences its dipole moment.

(62) The 'dipoles' array contains both positive and negative dipole moments.

(63) The strength of a magnetic dipole is determined by its magnetic moment.

(64) The line-of-force of the magnetic dipole was perpendicular to the axis.

(65) The magnetic dipole moment of a bar magnet is a measure of its strength.

(66) The dipole moment of a molecule can be calculated using vector addition.

(67) The bipyramidal geometry of the molecule results in a high dipole moment.

(68) The magnetic dipole interacts with other magnetic fields in its vicinity.

(69) The Hertzian dipole is a basic antenna design used in radio broadcasting.

(70) The delocalized electron cloud in a molecule can affect its dipole moment.

Use dipole in a sentence

(71) The presence of delocalizations can affect the dipole moment of a molecule.

(72) The magnetic dipole moment is a measure of the magnetization of a material.

(73) The formal charge of a molecule can be used to determine its dipole moment.

(74) The 'dipoles' array is sorted in ascending order based on dipole magnitudes.

(75) The electric dipole moment is a measure of the strength of an electric dipole.

(76) The dipole moment of a molecule can affect its boiling point and melting point.

(77) The polarizable atoms in the molecule contributed to its overall dipole moment.

(78) The magnetic torque experienced by the magnetic dipole flipped its orientation.

(79) The dipole moment of a molecule can be measured using spectroscopic techniques.

(80) The magnetic moment of a magnetic dipole can be visualized as a tiny bar magnet.

Sentence using dipole

(81) The dipole moment of a molecule can be affected by the geometry of the molecule.

(82) The dipole moment of a molecule can affect its physical and chemical properties.

(83) The dipole moment of a molecule can be used to determine its molecular geometry.

(84) The dipole moment of a molecule can be used to determine the molecular structure.

(85) The 'dipoles' array can be sorted in descending order based on dipole magnitudes.

(86) The 'dipoles' array can be used to calculate the net dipole moment of a molecule.

(87) The Rydberg atom can exhibit strong dipole-dipole interactions with nearby atoms.

(88) The magnetic moment of a magnetic dipole can be measured using a magnetic balance.

(89) The dipole-dipole interactions in molecules of water contribute to its bent shape.

(90) An electric dipole consists of two opposite charges separated by a small distance.

Dipole example sentence

(91) The self-energy of a magnetic dipole can be altered by an external magnetic field.

(92) The second moment of a current distribution determines its magnetic dipole moment.

(93) The Earth's magnetic field is generated by the magnetic dipole moment of its core.

(94) The dipole moment of a molecule can be influenced by the presence of multiple bonds.

(95) The dipole moment of a molecule can be used to predict the reactivity of a compound.

(96) The dipole moment of a molecule can be affected by the presence of hydrogen bonding.

(97) The electric dipole moment of a molecule can be used to study its rotational motion.

(98) The magnetic dipole moment of an electron is a fundamental property of the particle.

(99) The dipole moment of a molecule can be affected by the presence of symmetry elements.

(100) The solvated molecule interacted with the solvent through dipole-dipole interactions.

Sentence with word dipole

(101) The electric dipole moment of a molecule can be used to calculate its polarizability.

(102) The electric dipole moment of a molecule can be used to study its vibrational motion.

(103) The dipole moment of a molecule can be used to determine its molecular dipole vector.

(104) The dipole moment of a molecule can be used to determine its polarity and reactivity.

(105) The dipole moment of a molecule can be affected by changes in temperature or pressure.

(106) The dipole moment of a molecule can be used to explain its boiling and melting points.

(107) The dipole moment of a molecule can be used to determine its molecular dipole strength.

(108) The dipole moment of a molecule can be affected by changes in temperature and pressure.

(109) The magnetic dipole moment of a molecule can be used to study its electronic structure.

(110) The Indian Ocean Dipole is a weather phenomenon that affects the climate in the region.

Sentence of dipole

(111) The dipole moment of a molecule can be used to predict its solubility in polar solvents.

(112) The dipole moment of a molecule can be influenced by the presence of polar substituents.

(113) The dipole moment of a molecule can be affected by the presence of resonance structures.

(114) The dipole-dipole interactions in molecules of ammonia give rise to its pyramidal shape.

(115) Triatomic gases can have different dipole moments depending on their molecular symmetry.

(116) The dipole moment of cyclopentadiene is relatively low due to its symmetrical structure.

(117) The magnetic field of a monopole would be fundamentally different from that of a dipole.

(118) The magnetic dipole moment of a magnetic dipole is a fundamental property of the dipole.

(119) The dipole moment of a molecule can be influenced by the electronegativity of its atoms.

(120) The dipole moment of a molecule can be used to predict its ability to dissolve in water.

Dipole used in a sentence

(121) The dipole moment of a molecule can be used to determine the polarity of a chemical bond.

(122) The dipole-dipole interactions in molecules of carbon dioxide result in its linear shape.

(123) The dipolar moment of a molecule can be used to determine its dipole-dipole interactions.

(124) The dipole-dipole interactions between molecules contribute to the viscosity of a liquid.

(125) The dipole moment of a molecule can be used to explain its behavior in an electric field.

(126) The second moment of a magnetic field distribution determines its magnetic dipole moment.

(127) The magnetic dipole moment of a superconductor can be used to levitate it above a magnet.

(128) The dipole moment of a molecule can be influenced by the presence of polar covalent bonds.

(129) The electric dipole moment of a molecule can be influenced by the surrounding environment.

(130) The electric dipole moment of a molecule can be used to determine its molecular structure.

Dipole sentence in English

(131) The electric dipole moment of a molecule can be used to determine its dielectric constant.

(132) The dipole-dipole interactions between water molecules give rise to its unique properties.

(133) The electric field produced by an electric dipole decreases with distance from the dipole.

(134) The dipole moment of a molecule can be used to explain its ability to form hydrogen bonds.

(135) The dipole moment of a molecule can affect its physical properties, such as boiling point.

(136) The dipole-dipole interactions in molecules of sulfur dioxide contribute to its bent shape.

(137) The dipole-dipole interactions in molecules of nitrous oxide give rise to its linear shape.

(138) The magnetic susceptibility of a substance can be influenced by its magnetic dipole moment.

(139) The dipole moment of a molecule can be altered by the presence of external electric fields.

(140) The electric potential due to an electric dipole decreases as we move away from the dipole.

(141) The dipole moment of a molecule can be used to predict its boiling point and melting point.

(142) The orientation of an electric dipole can be changed by applying an external electric field.

(143) The magnetic dipole moment of a particle can be used to measure its magnetic susceptibility.

(144) The dipole moment of a molecule can be used to predict its solubility in different solvents.

(145) The dipole moment of a molecule can be used to predict its reactivity in chemical reactions.

(146) The dipole moment of a molecule can be influenced by the orientation of its atoms and bonds.

(147) The dipole moment of a molecule can be influenced by the presence of lone pairs of electrons.

(148) The dipole-dipole interactions in polar solvents facilitate the dissolution of polar solutes.

(149) The dipole-dipole interactions in molecules of carbon monoxide give rise to its polar nature.

(150) The dipole-dipole interactions in molecules of carbon dioxide contribute to its linear shape.

(151) The electric dipole moment of a molecule can be influenced by the presence of nearby charges.

(152) Magnetostatics is used to calculate the force between a magnetic dipole and a magnetic field.

(153) A dipole moment is a measure of the separation of positive and negative charges in a molecule.

(154) The magnetic torque exerted on the magnetic dipole caused it to align with the magnetic field.

(155) The dipole-dipole interactions between molecules can influence the rate of chemical reactions.

(156) The electric dipole moment is a measure of the strength and orientation of an electric dipole.

(157) The magnetic dipole moment of a current loop is proportional to the area enclosed by the loop.

(158) The electric dipole moment of a molecule can be visualized using molecular modeling techniques.

(159) The magnetic dipole moment of a nucleus is determined by the spins of its protons and neutrons.

(160) The magnetic moment of a magnetic dipole is a vector quantity with both magnitude and direction.

(161) The dipole moment of a molecule can be used to determine the dielectric constant of a substance.

(162) The dipole-dipole interactions in molecules of water contribute to its high dielectric constant.

(163) The electric dipole moment is a useful concept in understanding the behavior of polar molecules.

(164) The dipole-dipole interactions between molecules contribute to the boiling point of a substance.

(165) The dipole-induced dipole interactions between molecules contribute to London dispersion forces.

(166) The dipole moment of a molecule can be experimentally determined using spectroscopic techniques.

(167) The dipole moment of a molecule can be used to predict the boiling point elevation in a solution.

(168) The dipole moment of a molecule can be influenced by the presence of neighboring atoms or groups.

(169) The dipole-dipole interactions between molecules can result in the alignment of magnetic moments.

(170) The dipole-dipole interactions between molecules can lead to the formation of ordered structures.

(171) The Arctic Dipole Anomaly is a teleconnection that affects weather patterns in the Arctic region.

(172) The dipole moment of a molecule can be used to explain its ability to dissolve in polar solvents.

(173) The dipole-dipole interactions in molecules of sulfur hexafluoride result in its octahedral shape.

(174) The electric dipole moment of a molecule can be used to predict its behavior in an electric field.

(175) The dipole-dipole interactions between molecules contribute to the stability of a crystal lattice.

(176) The electric dipole moment of a molecule determines its interaction with external electric fields.

(177) The Indian Ocean Dipole is another teleconnection that affects weather in the Indian Ocean region.

(178) The dipole moment of a molecule can be affected by the presence of nearby ions or other molecules.

(179) The dipole moment of a molecule can be calculated using its molecular geometry and bond polarities.

(180) When a molecule has a high dipole moment, it is more likely to interact with other polar molecules.

(181) The dipole moment of a molecule can be used to determine the dipole-dipole forces between molecules.

(182) The dipole-dipole interactions in molecules of carbon tetrachloride result in its tetrahedral shape.

(183) The dipole moment of a molecule can be used to predict its reactivity in certain chemical reactions.

(184) The dipole-dipole interactions between molecules can result in the formation of dipole-dipole bonds.

(185) The magnetic dipole moment of a ferromagnetic material can be used to study its magnetic properties.

(186) The dipole moment of a molecule can be used to predict its solubility in polar or nonpolar solvents.

(187) The magnetic moment of a magnetic dipole is inversely proportional to the distance between the poles.

(188) The dipole moment of a molecule can be measured experimentally using techniques such as spectroscopy.

(189) The dipole moment of a molecule can be used to explain the behavior of molecules in a magnetic field.

(190) The electric dipole moment of a system of charges is the vector sum of the individual dipole moments.

(191) The dipole moment of a molecule can be used to explain the behavior of molecules in an electric field.

(192) Climate models suggest a teleconnection between the Indian Ocean Dipole and droughts in Southeast Asia.

(193) The electric dipole moment of a molecule can be used to calculate its dipole-dipole interaction energy.

(194) The dipole-dipole interactions between molecules can lead to the formation of intermolecular complexes.

(195) The dipole-dipole interactions between molecules contribute to the dipole-dipole forces in a substance.

(196) The electric dipole moment of a molecule can be used to study the polarity and solubility of compounds.

(197) The dipole moment of a molecule can be used to predict its behavior in different chemical environments.

(198) The magnetic moment of a magnetic dipole is a property that arises from the motion of charged particles.

(199) The magnetic moment of a magnetic dipole can be influenced by the presence of nearby magnetic materials.

(200) The magnetic dipole moment of a magnetic dipole can be measured experimentally using a magnetic balance.

(201) The electric dipole moment is defined as the product of the charge and the distance between the charges.

(202) The electric dipole moment of a molecule can be experimentally determined using spectroscopic techniques.

(203) The electric dipole moment of a molecule can be used to determine its molecular symmetry and point group.

(204) The electric dipole moment is a measure of the separation of positive and negative charges in a molecule.

(205) The dipole moment of a molecule can be used to determine the dipole-dipole interactions between molecules.

(206) The dipole moment of a molecule can be used to explain the solubility of a compound in different solvents.

(207) The dipole moment of a molecule can be used to predict the dipole-induced dipole forces between molecules.

(208) The magnetic dipole moment of a magnetic dipole can be used to study the magnetic properties of materials.

(209) The dipole moment of a molecule can be influenced by the presence of lone pairs of electrons on its atoms.

(210) The magnetic dipole moment of a magnetic dipole is a measure of the strength and orientation of the dipole.

(211) The electric dipole moment of a molecule can be altered by changing its molecular structure or composition.

(212) The dipole moment of a molecule can be used to determine the dipole-induced dipole forces between molecules.

(213) The teleconnection between the Indian Ocean Dipole and droughts in Australia is a topic of ongoing research.

(214) The dipole moment of a molecule can be visualized using an arrow pointing from the positive to negative end.

(215) Although the dipole moment of water is relatively small, it plays a crucial role in many chemical reactions.

(216) The dipole moment of a molecule can be used to predict the direction of electron flow in a chemical reaction.

(217) The dipole moment of a molecule can be used to determine its dipole-dipole interactions with other molecules.

(218) The dipole moment of a molecule can be represented by an arrow pointing towards the more electronegative atom.

(219) The dipole-dipole interactions between molecules affect the solubility of a substance in a particular solvent.

(220) The electric dipole moment of a molecule can be affected by the presence of nearby charges or other molecules.

(221) The dipole moment of a molecule can be measured experimentally using techniques such as infrared spectroscopy.

(222) The dipole moment of a molecule can be used to explain its ability to interact with electromagnetic radiation.

(223) The dipolar interaction between two molecules can lead to the formation of a dipole-induced dipole interaction.

(224) The magnetic dipole moment of a magnetic dipole can be influenced by the presence of nearby magnetic materials.

(225) The dipole moment of a molecule can be used to explain its ability to form hydrogen bonds with other molecules.

(226) The dipole-dipole forces between molecules of hydrogen sulfide are weaker than those between molecules of water.

(227) The electric field lines around an electric dipole are directed from the positive charge to the negative charge.

(228) The electric dipole moment of a molecule can be experimentally determined using techniques such as spectroscopy.

(229) The electric dipole moment of a molecule can be influenced by external factors such as temperature and pressure.

(230) The magnetic moment of a magnetic dipole is a measure of its ability to interact with an external magnetic field.

(231) The dipole-dipole interactions in polar molecules result in higher boiling points compared to nonpolar molecules.

(232) The electric dipole moment of a molecule is an important property in fields like chemistry and molecular biology.

(233) Pyroelectricity is a result of the change in the dipole moment of the crystal lattice due to temperature changes.

(234) The dipole moment of a molecule can be used to determine the dipole-induced dipole interactions between molecules.

(235) The magnetic dipole moment is proportional to the product of the magnetic field strength and the area of the loop.

(236) Researchers are investigating the teleconnection between the Arctic Dipole Anomaly and sea ice loss in the Arctic.

(237) The electric dipole moment of a polar molecule is non-zero due to the separation of positive and negative charges.

(238) The magnetic dipole moment of a magnetic dipole antenna can be used to transmit and receive electromagnetic waves.

(239) The electric dipole moment of a neutral atom is zero since the positive and negative charges cancel each other out.

(240) The dipole moment of a molecule can be used to predict its dipole-induced dipole interactions with other molecules.

(241) The magnetic dipole moment of a magnetic dipole is a key parameter in understanding its behavior in magnetic fields.

(242) The magnetic dipole moment of a magnetic dipole can be used to study the magnetic properties of atoms and molecules.

(243) The electric dipole moment of a molecule can be used to explain phenomena like the dielectric behavior of materials.

(244) The electric dipole moment of a molecule can be measured experimentally using techniques like X-ray crystallography.

(245) The electric dipole moment of a system of charges can be used to calculate the potential energy stored in the system.

(246) The electric dipole moment of a molecule can be used to predict its reactivity and interactions with other molecules.

(247) The dipole moment of a molecule can be used to predict its dipole-induced dipole interactions with nonpolar solvents.

(248) The formal charge of a molecule can be used to determine its dipole moment, and this can help predict its solubility.

(249) The dipole-dipole interactions between molecules of ammonia contribute to its ability to act as a hydrogen bond donor.

(250) The magnetic axis of a compass needle aligns with the Earth's magnetic field due to the presence of a magnetic dipole.

(251) The magnetic dipole moment of a current loop is given by the product of the current and the area enclosed by the loop.

(252) The magnetic dipole moment of a magnetic dipole is a measure of its ability to interact with external magnetic fields.

(253) The torque experienced by an electric dipole in an electric field depends on the dipole moment and the field strength.

(254) The dipole moment of a molecule can be used to explain its ability to form intermolecular forces with other molecules.

(255) Although the formal charge of the molecule is zero, the presence of polar covalent bonds results in a net dipole moment.

(256) The magnetic dipole moment of a magnetic dipole can be used to study the magnetic interactions between different dipoles.

(257) The electric dipole moment of a molecule affects its behavior in electric fields, such as its ability to rotate or align.

(258) The magnetic moment of a magnetic dipole can be reversed by applying an external magnetic field in the opposite direction.

(259) The dipole-dipole forces between molecules of hydrogen iodide are weaker than those between molecules of hydrogen bromide.

(260) The magnetic moment of a magnetic dipole is proportional to the strength of the dipole and the distance between the poles.

(261) The magnetic moment of a magnetic dipole is defined as the product of its pole strength and the distance between the poles.

(262) The magnetic moment of a magnetic dipole can be used to determine the strength and direction of an external magnetic field.

(263) The dipole-dipole forces between molecules of hydrogen iodide are weaker than those between molecules of hydrogen chloride.

(264) The magnetic moment of a magnetic dipole can be used to calculate the magnetic field strength inside and outside a solenoid.

(265) The dipole-dipole forces between molecules of hydrogen bromide are stronger than those between molecules of hydrogen iodide.

(266) The electric dipole moment of a molecule can be used to calculate its dipole-dipole interaction energy with other molecules.

(267) The term monopole is derived from the fact that the antenna has only one pole, as opposed to a dipole antenna which has two.

(268) Although the formal charge of the molecule is negative, the presence of polar covalent bonds results in a net dipole moment.

(269) The magnetic moment of a magnetic dipole can be used to calculate the magnetic field produced by the dipole at a given point.

(270) The magnetic dipole moment of a magnetic dipole can be used to investigate the magnetic fields generated by celestial bodies.

(271) The electric dipole moment of a molecule can be used to study the behavior of molecules in electrically insulating materials.

(272) The dipole-dipole forces between molecules of hydrogen cyanide are stronger than those between molecules of hydrogen chloride.

(273) The dipole-dipole forces between molecules of hydrogen chloride are stronger than those between molecules of hydrogen sulfide.

(274) The dipole-dipole forces between molecules of hydrogen fluoride are stronger than those between molecules of hydrogen bromide.

(275) The dipole-dipole forces between molecules of hydrogen chloride are stronger than those between molecules of hydrogen cyanide.

(276) The magnetic moment of a magnetic dipole can be used to calculate the magnetic field strength at the center of a circular loop.

(277) The dipole-dipole forces between molecules of hydrogen chloride are stronger than those between molecules of hydrogen fluoride.

(278) The dipole-dipole forces between molecules of hydrogen fluoride are stronger than those between molecules of hydrogen chloride.

(279) The magnetic dipole moment of a bar magnet is determined by the product of its magnetic field strength and its magnetic length.

(280) The magnetic dipole moment of a magnetic dipole can be used to calculate the potential energy of the dipole in a magnetic field.

(281) The magnetic dipole moment of a magnetic dipole can be used to determine the strength and direction of an external magnetic field.

(282) The magnetic dipole moment of a magnetic dipole can be used to calculate the torque experienced by the dipole in a magnetic field.

(283) The magnetic moment of a magnetic dipole can be used to calculate the potential energy of the dipole in an external magnetic field.

(284) The dipole moment of a molecule can be calculated by multiplying the magnitude of the charge with the distance between the charges.

(285) The electric dipole moment of a system of charges can be calculated by summing the products of charge and distance for each charge.

(286) The electric dipole moment of a molecule can be calculated by multiplying the magnitude of the charges by the distance between them.

(287) The electric dipole moment of a molecule is a fundamental property that arises from the distribution of charges within the molecule.

(288) The electric dipole moment of a molecule can be influenced by the presence of external electric fields or electromagnetic radiation.

(289) The magnetic moment of a magnetic dipole can be affected by the orientation of the dipole with respect to an external magnetic field.

(290) The magnetic moment of a magnetic dipole can be used to calculate the torque experienced by the dipole in an external magnetic field.

(291) The magnetic dipole moment of a magnetic dipole can be used to understand the behavior of magnetic materials in various applications.

(292) The magnetic moment of a magnetic dipole can be used to calculate the magnetic field strength at a point on the axis of a circular loop.

(293) The dipole moment of water is higher than that of carbon dioxide due to the difference in electronegativity between oxygen and hydrogen.

(294) The electric dipole moment of a molecule is an important concept in understanding the behavior of polar molecules in various environments.

(295) The magnetic dipole moment of a magnetic dipole can be used to analyze the magnetic fields produced by different configurations of dipoles.

(296) The dipole moment of a molecule can be calculated by multiplying the magnitude of the charge separation by the distance between the charges.

(297) The magnetic moment of a magnetic dipole can be used to calculate the magnetic field strength at a point on the axial plane of a circular loop.

(298) The magnetic moment of a magnetic dipole can be used to calculate the magnetic field strength at a point on the equatorial plane of a circular loop.

(299) Even though some molecules have a dipole moment of zero, they can still have polar bonds, which cancel each other out due to their orientation in space.

(300) When two atoms with different electronegativities bond together, they create a molecule with a dipole moment, which can affect its reactivity and solubility.

(301) Although the dipole moment of water is relatively small, it is still responsible for many of its unique properties, and it is essential for life as we know it.

(302) When a molecule has a high dipole moment, it tends to interact more strongly with other polar molecules, which can affect its physical and chemical properties.

(303) Although the dipole moment of a molecule is a useful concept for understanding its behavior, it is not always a reliable predictor of its reactivity or stability.

(304) The dipole moment of a molecule can be calculated by multiplying the distance between the charges by the magnitude of the charges, and it is measured in units of Debye.

(305) When a molecule has a dipole moment, it can interact with an electric field and experience a torque, which can cause it to align with the field or rotate around its axis.

(306) When a molecule undergoes a chemical reaction, its dipole moment can change due to the redistribution of electrons, which can affect the reaction rate and product distribution.

(307) Although the dipole moment of a molecule is determined by its molecular geometry and electronegativity differences, it can also be influenced by external factors such as temperature and pressure.

(308) Although the dipole moment of a molecule is a fundamental property that can be used to explain many of its properties, it is only one of many factors that contribute to its behavior and reactivity.

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