yes it is becasue water is a polar molecule and therefore, can only disolve another polar molecule such as ch2o
Carbohydrate
8
Dipole-Dipole and covalent sigma bond forces.
Both are non polare and Both have weak attractive forces, thus they can easily leave their own kind to mix with each other. Intermolecular force is only dispersion (London dispersion force). The strength of the London Dispersion Forces (LDF) depends on how easily the electron cloud of an atom or molecule can be distorted or polarized. The closer molecules can approach each other, the stronger the LDF.
london dispersion and dipole-dipole is the strongest in this molecule.
yes it is becasue water is a polar molecule and therefore, can only disolve another polar molecule such as ch2o
Carbohydrate
it is a non-polar covalent bond.therefore, the force between the molecules is known as the London dispersion force.
yes, CH4 has London dispersion forces because it is a non-polar molecule and non-polar molecules have London dispersion forces present in them. there are no other forces present in CH4.
If it's polar it will have dipole interaction; if it's non-polar it will be dispersion forces.
London dispersion forces derive from the interraction of instantaneous induced dipoles - the inetraction of polar molecules (having a permanent dipole )is called a Keesom force- the force between a permanent polar molecule and an induced dipole in another molecule is called a debye force--
a. dispersion forces b. hydrogen bonding forces c. dipole-dipole forces
Induced dipole forced
Dipole forces and London forces are present between these molecules.
8
LiF - dispersion force and ionic bonding BeF_2 - dispersion force and ionic bonding BF_3 - dispersion force CF_4 - dispersion force NF_3 - dispersion force and diople-diople interaction OF_2 - dispersion force and diople-diople interaction F_2 - dispersion force They all have at least dispersion force