Van Der Waals in a sentence
(1) The Van Der Waals force is attractive in nature.
(2) The Van Der Waals force is an intermolecular force.
(3) Van Der Waals forces can be attractive or repulsive.
(4) Van der Waals forces are weak intermolecular forces.
(5) Van Der Waals forces are weaker than hydrogen bonding.
(6) Van der Waals forces are weaker than hydrogen bonding.
(7) The Van Der Waals force is a weak intermolecular force.
(8) Van Der Waals forces are present in biological systems.
(9) The Van Der Waals force is weaker than hydrogen bonding.
(10) Van Der Waals forces are present in all states of matter.
Van Der Waals sentence
(11) The Van Der Waals force is weaker at higher temperatures.
(12) The Van Der Waals force is significant in protein folding.
(13) The Van Der Waals force is present in all types of matter.
(14) London dispersion forces are a type of Van Der Waals force.
(15) London dispersion forces are a type of van der Waals force.
(16) The Van Der Waals force is present in all states of matter.
(17) The Van Der Waals force is stronger in polarizable molecules.
(18) The Van Der Waals force is stronger between larger molecules.
(19) The van der Waals radius is a measure of the size of an atom.
(20) Van der Waals forces are weaker than covalent or ionic bonds.
Van Der Waals make sentence
(21) The Van Der Waals force is also known as the dispersion force.
(22) The Van Der Waals force is weaker than ionic or covalent bonds.
(23) Van Der Waals forces are weaker than dipole-dipole interactions.
(24) The Van Der Waals force is influenced by the shape of molecules.
(25) Van Der Waals forces can be overcome by applying external forces.
(26) The van der Waals forces are weaker than covalent or ionic bonds.
(27) The Van Der Waals force is essential for the cohesion of liquids.
(28) Van Der Waals forces are important in intermolecular interactions.
(29) Van der Waals interactions play a crucial role in protein folding.
(30) The van der Waals equation is applicable to both gases and liquids.
Sentence of van der waals
(31) The van der Waals equation is an improvement over the ideal gas law.
(32) The Van Der Waals force allows geckos to stick to walls and ceilings.
(33) The Van Der Waals force can be influenced by temperature and pressure.
(34) The van der Waals radius is typically larger than the covalent radius.
(35) Van der Waals interactions are responsible for the shape of molecules.
(36) The van der Waals constants are used to calculate the behavior of gases.
(37) The Van Der Waals force is stronger in substances with larger molecules.
(38) The Van Der Waals force is responsible for the shape of liquid droplets.
(39) The Van Der Waals force is influenced by the distance between molecules.
(40) The Van Der Waals force is present in both polar and nonpolar molecules.
Van Der Waals meaningful sentence
(41) The Van Der Waals force is crucial in determining the shape of molecules.
(42) The gas constant is an important parameter in the Van der Waals equation.
(43) The van der Waals equation of state describes the behavior of real gases.
(44) The van der Waals radius is a measure of the size of an atom or molecule.
(45) The van der Waals equation can be used to calculate the entropy of a gas.
(46) The Van Der Waals force is influenced by the shape and size of molecules.
(47) Van der Waals radii are used to estimate the size of atoms in a molecule.
(48) The Van Der Waals force increases with the size of the molecules involved.
(49) The Van Der Waals force is responsible for the surface tension of liquids.
(50) The Van Der Waals force is weaker in gases compared to liquids and solids.
Van Der Waals sentence examples
(51) The van der Waals equation can be used to calculate the fugacity of a gas.
(52) The van der Waals equation can be used to calculate the enthalpy of a gas.
(53) The Van Der Waals force is weaker in substances with lower boiling points.
(54) Van der Waals forces are responsible for the cohesion of liquid molecules.
(55) The van der Waals equation can be used to study phase transitions in gases.
(56) The van der Waals equation can be used to calculate the viscosity of a gas.
(57) The Van Der Waals force is crucial for the stability of molecular crystals.
(58) The Van Der Waals force is important in understanding the behavior of gases.
(59) The van der Waals forces play a crucial role in intermolecular interactions.
(60) The Van Der Waals force is responsible for the cohesion of liquid molecules.
Sentence with van der waals
(61) The Van Der Waals force is important in the formation of molecular crystals.
(62) The Van Der Waals force is crucial for the interaction between biomolecules.
(63) The van der Waals equation is based on the concept of intermolecular forces.
(64) The Van Der Waals force is essential for the formation of molecular crystals.
(65) The van der Waals equation can be modified to account for non-ideal behavior.
(66) The Van Der Waals force is weaker in substances with lower molecular weights.
(67) The Van Der Waals force is crucial for the interaction between nanoparticles.
(68) The Van Der Waals force is important in understanding the behavior of liquids.
(69) The Van Der Waals force is weaker between molecules with lower polarizability.
(70) Van der Waals forces are present in all substances, but their strength varies.
Use van der waals in a sentence
(71) The Van Der Waals force is responsible for the nonideal behavior of real gases.
(72) The van der Waals equation predicts the behavior of real gases more accurately.
(73) The van der Waals equation can be used to calculate the heat capacity of a gas.
(74) The Van Der Waals force is essential for the stability of biological molecules.
(75) The Van Der Waals force is significant in determining the viscosity of liquids.
(76) The Van Der Waals force is important in understanding the behavior of polymers.
(77) The Van Der Waals force is essential for the stability of biological membranes.
(78) The van der Waals equation incorporates corrections for non-ideal gas behavior.
(79) The van der Waals equation takes into account the finite size of gas molecules.
(80) Van Der Waals forces are responsible for the condensation of gases into liquids.
Sentence using van der waals
(81) The van der Waals equation can be derived from statistical mechanics principles.
(82) The van der Waals equation can be used to calculate the speed of sound in a gas.
(83) The Van Der Waals force is stronger in substances with higher molecular weights.
(84) The Van Der Waals force is influenced by the electron distribution in molecules.
(85) The Van Der Waals force is responsible for the non-ideal behavior of real gases.
(86) The Van Der Waals force is weaker between molecules with lower molecular weight.
(87) Van der Waals forces are responsible for the condensation of gases into liquids.
(88) The van der Waals equation can be used to calculate the internal energy of a gas.
(89) The Van Der Waals force is responsible for the condensation of gases into liquids.
(90) The Van Der Waals force is stronger between molecules with larger electron clouds.
Van Der Waals example sentence
(91) The van der Waals equation takes into account the volume occupied by gas molecules.
(92) The van der Waals equation can be used to calculate the Gibbs free energy of a gas.
(93) The binding energy of a van der Waals interaction is influenced by molecular shape.
(94) The Van Der Waals force is responsible for the interaction between noble gas atoms.
(95) Van der Waals forces are important in determining the boiling point of a substance.
(96) The van der Waals equation can be used to calculate the critical pressure of a gas.
(97) The van der Waals equation can be used to calculate the Boyle temperature of a gas.
(98) The Van Der Waals force is inversely proportional to the distance between molecules.
(99) The Van Der Waals force is essential for the formation of self-assembled monolayers.
(100) The critical temperature of a gas can be calculated using the van der Waals equation.
Sentence with word van der waals
(101) The Van Der Waals force is responsible for the attraction between nonpolar molecules.
(102) The van der Waals equation can be used to estimate the behavior of mixtures of gases.
(103) Van der Waals radii are used to estimate the strength of intermolecular interactions.
(104) The Van Der Waals force is influenced by the electron cloud distribution in molecules.
(105) The Van Der Waals force is significant in determining the boiling point of substances.
(106) The Van Der Waals force is named after Dutch scientist Johannes Diderik van der Waals.
(107) The van der Waals equation can be used to calculate the critical temperature of a gas.
(108) Van der Waals interactions are important in determining the solubility of a substance.
(109) The van der Waals equation can be used to calculate the Helmholtz free energy of a gas.
(110) The Van Der Waals force is significant in determining the boiling points of substances.
Sentence of van der waals
(111) The Van Der Waals force is important in understanding the behavior of nonpolar solvents.
(112) The van der Waals equation can be used to calculate the compressibility factor of a gas.
(113) Van der Waals forces are important in determining the physical properties of substances.
(114) The alanyl side chain can participate in van der Waals interactions with other molecules.
(115) The glycyl side chain can participate in van der Waals interactions with other molecules.
(116) Geckos can climb walls due to the Van Der Waals force between their feet and the surface.
(117) Van der Waals radii are used to estimate the distance between atoms in a crystal lattice.
(118) Van der Waals interactions are responsible for the adsorption of gases on solid surfaces.
(119) The Van Der Waals force is named after the Dutch scientist Johannes Diderik van der Waals.
(120) The van der Waals equation can be used to calculate the Joule-Thomson coefficient of a gas.
Van Der Waals used in a sentence
(121) The van der Waals equation is based on the assumption that gas molecules have a finite size.
(122) Floc can be formed through the interaction of electrostatic forces and van der Waals forces.
(123) The van der Waals equation is named after the Dutch scientist Johannes Diderik van der Waals.
(124) The Van Der Waals force plays a crucial role in determining the physical properties of gases.
(125) Van Der Waals forces play a crucial role in determining the physical properties of substances.
(126) The van der Waals equation accounts for the attractive and repulsive forces between molecules.
(127) The gas constant is a key component in the calculation of the van der Waals equation of state.
(128) The Van Der Waals force is important in understanding the behavior of gases at high pressures.
(129) The Van Der Waals force is significant in determining the solubility of substances in liquids.
(130) The tetrahedrally shaped molecule can interact with other molecules through van der Waals forces.
Van Der Waals sentence in English
(131) The Van Der Waals force plays a crucial role in determining the physical properties of substances.
(132) The van der Waals equation accounts for the attractive and repulsive forces between gas molecules.
(133) The van der Waals equation can be used to calculate the critical temperature and pressure of a gas.
(134) The van der Waals equation predicts the behavior of real gases more accurately than the ideal gas law.
(135) The cohesive energy of a substance is related to its cohesive forces, such as van der Waals interactions.
(136) The van der Waals equation can be used to calculate the pressure of a gas at a given temperature and volume.
(137) The van der Waals equation can be used to calculate the volume of a gas at a given temperature and pressure.
(138) The binding energy of a van der Waals interaction can be weakened by increasing distance between the molecules.
Van Der Waals meaning
Van der Waals is a term that refers to the attractive or repulsive forces between molecules or atoms. These forces arise due to fluctuations in the electron distribution within the molecules or atoms. Named after the Dutch scientist Johannes Diderik van der Waals, these intermolecular forces play a crucial role in various physical and chemical phenomena. When using the term "van der Waals" in a sentence, it is important to provide context and clarity to ensure proper understanding. Here are some tips on how to incorporate this term effectively:
1. Scientific context: Van der Waals forces are commonly discussed in scientific literature, particularly in the fields of chemistry and physics. When using the term in a scientific context, it is essential to provide a clear explanation of the specific type of van der Waals force being referred to, such as London dispersion forces, dipole-dipole interactions, or hydrogen bonding. Example sentence: "The cohesive properties of water are primarily attributed to the presence of hydrogen bonding, a type of van der Waals force."
2. Historical context: Since the term "van der Waals" is named after a specific scientist, it can be useful to provide some historical background when using it in a sentence. This can help readers understand the significance of the term and its contributions to the scientific community. Example sentence: "Johannes Diderik van der Waals' groundbreaking work on intermolecular forces revolutionized our understanding of molecular interactions."
3. Real-world applications: Van der Waals forces have practical implications in various everyday scenarios. When using the term in a sentence, consider providing examples of how these forces manifest in the world around us, such as in adhesion, surface tension, or the behavior of gases. Example sentence: "The gecko's ability to climb smooth surfaces is attributed to the van der Waals forces between its feet and the surface, allowing it to adhere effortlessly."
4. Comparative statements: Van der Waals forces are often compared to other types of intermolecular forces, such as ionic or covalent bonds. When using the term in a sentence, you can highlight the unique characteristics or differences between van der Waals forces and other types of chemical interactions. Example sentence: "Unlike covalent bonds, van der Waals forces are relatively weak and depend on temporary fluctuations in electron distribution."
5. Importance in materials science: Van der Waals forces play a crucial role in the properties and behavior of materials. When using the term in a sentence, consider discussing how these forces impact material properties, such as melting points, boiling points, or the formation of crystals. Example sentence: "The layered structure of graphite is a result of strong van der Waals forces between the carbon layers, allowing for easy cleavage and the formation of graphene."
In conclusion, when using the term "van der Waals" in a sentence, it is important to provide context, clarity, and relevant examples to ensure proper understanding. Whether discussing scientific concepts, historical significance, real-world applications, or material properties, these tips can help you effectively incorporate this term into your writing.
The word usage examples above have been gathered from various sources to reflect current and historical usage of the word Van Der Waals. They do not represent the opinions of TranslateEN.com.