What is the strongest type of intermolecular forces exist in CH_3OH? A) hydrogen bonding B) ion-dipole C) dipole-dipole D) dispersion What is the strongest intermolecular force between molecules of CH_3OH? a. Ion-ion. b. Dipole-dipole. c. Hydrogen bonding. d. London. ...
macrocycle towards the cargo compartment, in which cargo molecules (blue balls; Fig.1a) are dispersed along the axle. Forceful contact between the macrocycle and these steric obstacles leads to the sequential release of these cargo molecules via mechanochemical scission of the covalent bonds linking t...
Viscosity is the measure of how resistive a fluid is to flow and depends on the friction between the molecules in the fluid. A higher friction corresponds to a more viscous liquid Young's Modulus Young's Modulus is a mechanical property that quantitatively measures the stiffness of an elastic ...
An attractive force between two atoms or nonpolar molecules, which arises because a fluctuating dipole moment in one molecule induces a dipole moment in the other, and the two dipole moments then interact. Also known as dispersion force; London dispersion force; van der Waals attraction. ...
Which type of intermolecular force ("interparticle force") is the most important in CI_3H(s)? Explain your answer. 1. Ionic bonds 2. Dipole-dipole forces 3. London Dispersion 4. Hydrogen bonds 5. Io...
Adsorption is the accumulation of a gas or liquid on a liquid or solid. It can be defined further based on the strength of the interaction between the adsorbent (the substrate onto which chemicals attach) and the adsorbed molecules. The sorption can be also classified according to the force ...
Bonding forces are forces of attraction or repulsion which act between neighboring particles such as atoms, molecules or ions. Bonding force determines the elastic modulus (or Young's modulus) of a material (how stiff a material is). The strength of chemical bonds varies considerably; there are...
Our results show that cell sensing of external forces and of passive mechanical parameters (like tissue stiffness) can be understood through the same mechanisms, driven by the properties under force of the mechanosensing molecules involved.Similar content being viewed by others Mechanical regulation of ...
Here we report on the use of chemical force microscopy to discriminate between chiral molecules. Using chiral molecules attached to the probe tip, we can distinguish the two enantiomers of mandelic acid arrayed on a surface, through differences in both the adhesion forces and the frictional forces...
- 《Journal of Physical Chemistry A Molecules Spectroscopy Kinetics Environment Amp General Theory》 被引量: 70发表: 1999年 Effect of sintering temperature on electrical properties and stability of \\hbox{Pr}_{6}\\hbox{O}_{11}-based ZnO varistors The electrical properties and stability of ZPC...