Calculate force of attraction (N) and energy (J) of a) Na+ and Cl- ions b) Al3+...

Calculate the Coulombic force of attraction between Na+ and Cl- in a 0.35 M aqueous solution....

Calculate the Coulombic force of attraction between Na+ and Cl- in a 0.35 M aqueous solution. The elementary charge is 1.602 x 10-19 C, the dielectric constant is 78.5 and the permittivity of vacuum is 8.854 x 10-12 C2 N-1 m-2. Will ion pairing between Na+ and Cl- occur at 310K under those conditions and why?

(a) Calculate the Coulomb electrostatic force and electrostatic energy between a Na+ ion and a Cl-...

(a) Calculate the Coulomb electrostatic force and electrostatic energy between a Na+ ion and a Cl- ion at a distance of 0.22 nm. Is this attractive or repulsive? The magnitude of the ionic charge of Na+ and Cl- ion is 1.6 x 10-19 C. (b) Calculate the Coulomb electrostatic energy between one casein submicelle and one Ca++ ion, assuming that the submicelle has negative charge - 1 x 10-17 C, and the separation between the centers of the submicelle and...

For a Na+-Cl- ion pair, attractive and repulsive energies, EA and ER respectively, depend on the...

For a Na+-Cl- ion pair, attractive and repulsive energies, EA and ER respectively, depend on the distance between the ions r, according to:   EA= -1.436/r    ER= 7.32 X 10-6/ r8    EN= EA + ER   For the above expressions energy is expressed as electron-volt per Na+-Cl- ion pair, and r is the distance in nanometers.    Plot EN, EA and ER versus r up-to 0.8 nm.    On the basis of this plot, determine the equilibrium spacing ro between Na+ and Cl-...

Calculate the p-value for each of the ions in the following: A. Na+, Cl-, and OH-...

Calculate the p-value for each of the ions in the following: A. Na+, Cl-, and OH- in a solution that is 0.0635M in NaCL and 0.0403 M in NaOH. B. Ba^2+, Mn^2+, and Cl^- in a solution that is 4.65* 10^-3M in BaCl2 and 2.54 M in MnCl2.

1. Calculate the free energy of transport (Gt) for the movement of sodium ions (Na+ )...

1. Calculate the free energy of transport (Gt) for the movement of sodium ions (Na+ ) from the extracellular space into the cell under the following conditions: [Na+ ]out = 140 mM; [Na+ ]in = 12.0 mM;  =−60.0 mV; T = 37.0C. Use R = 8.314 J/mol K; F = 96,500 J/V mol. 2. Calculate the free energy of transport (Gt) for the movement of potassium ions (K+ ) from the extracellular space into the cell under the following...

333.7g of NaCl completely dissolves (producing Na + and Cl - ions) in 1.00 kg of...

333.7g of NaCl completely dissolves (producing Na + and Cl - ions) in 1.00 kg of water at 25.0 degrees celsius. The vapore pressure of pure water at this temperature is 23.8 torr. Determine the vapor pressure of the solution. A) 18.2 torr B) 23.8 torr C) 19.7 torr D) 17.5 torr E) 21.6 torr I know the answer is C, but why? (Show work and explain please).

calculate net potential energy of a na cl ion pair which formed by ionic bonding if...

calculate net potential energy of a na cl ion pair which formed by ionic bonding if it known that the ionic radius of na ion is 0.095nm and that of cl ion is 0.181nm the value of the electron charge is 1.6*10^-19 and of the permittivty of vacuum is 8.85*10^-12 C^2/(n-m^2).assume n=9 for nacl

Assume that the binding energy curve of two ions as a function of their distance d...

Assume that the binding energy curve of two ions as a function of their distance d has the shape V(d) = −A/d + B/d8 , consisting of an attractive and a repulsive term. Sketch this binding energy curve schematically. b) The distance between Mg2+ ions and O2- ions in a MgO crystal is d0=2.106 Å (that is, 0.2106 nm). Calculate the Coulomb energy (in eV=1.602·10-19 J) that attracts these ions to one another. (ε0=8.85·10−12 J/(V2 ·m)) c) Assuming that the...

Calculate the energy of a photon, in J/mol, having wavelengths of a) 400 nm and b)...

Calculate the energy of a photon, in J/mol, having wavelengths of a) 400 nm and b) 3.3 micrometers

(a) For the solidification of iron, calculate the critical radius r* and the activation free energy...

(a) For the solidification of iron, calculate the critical radius r* and the activation free energy ΔG* if nucleation is homogeneous. Values for the latent heat of fusion and surface free energy are –1.85 × 109 J/m3 and 0.204 J/m2, respectively. Use the supercooling value ΔT = 262 K, and the melting point of iron is 1538°C. Critical Radius, r* = nm Activation Free Energy ΔG* = J (b) Now calculate the number of atoms found in a nucleus of...