Equation to relate atomic radius and density of ccp solid of given molar mass has to be determined. Also, atomic radius of noble gases through constructed equation has to be determined. Concept Introduction: Density of substance is termed for mass of substance present in unit volume. It can be represented as follows: Density = Mass Volume

Question

Want to see more full solutions like this?

Answer 1

Question

Chapter 3, Problem 3.29E

Interpretation Introduction

Interpretation:

Equation to relate atomic radius and density of ccp solid of given molar mass has to be determined. Also, atomic radius of noble gases through constructed equation has to be determined.

Concept Introduction:

Density of substance is termed for mass of substance present in unit volume. It can be represented as follows:

Density=MassVolume

Expert Solution & Answer

Explanation of Solution

Expression between volume of atom, mass, and density is as follows:

(r(cm))3=(k)(Molar massdensity) (1)

Here,

r is radius of atom.

k is proportionality constant.

Rearrange equation (1) to determine value of k.

k=(r3)(density)Molar mass (2)

Substitute 1.20 g⋅cm−3 for density, 170 pm for r, and 20.18 g⋅mol−1 for molar mass in equation (2) to determine value of k for Ne.

k=(((170 pm)(10−10 cm1 pm))3)(1.20 g⋅cm−3)20.18 g⋅mol−1=2.92×10−25 mol

Equation (1) can be modified to determine value of r in pm unit as follows:

(r(pm))3=(k)(Molar massdensity)(1010 pm1 cm)3 (3)

Rearrange equation (3) to determine value of r in pm unit.

r(pm)=((k)(Molar massdensity)(1010 pm1 cm)3)1/3 (4)

Substitute 2.92×10−25 mol for k in equation (4).

r(pm)=((2.92×10−25 mol)(Molar massdensity)(1010 pm1 cm)3)1/3 (5)

Therefore, general relation between radius of atom (pm) , density and molar mass of atom is as follows:

r(pm)=((2.92×10−25 mol)(Molar massdensity)(1010 pm1 cm)3)1/3 (5)

Substitute 1.40 g⋅cm−3 for density, 39.95 g⋅mol−1 for molar mass in equation (5) to determine value of r for Ar.

r(pm)=((2.92×10−25 mol)(39.95 g⋅mol−11.40 g⋅cm−3)(1010 pm1 cm)3)1/3=202 pm

Substitute 2.16 g⋅cm−3 for density, 83.80 g⋅mol−1 for molar mass in equation (5) to determine value of r for Kr.

r(pm)=((2.92×10−25 mol)(83.80 g⋅mol−12.16 g⋅cm−3)(1010 pm1 cm)3)1/3=225 pm

Substitute 2.83 g⋅cm−3 for density, 131.30 g⋅mol−1 for molar mass in equation (5) to determine value of r for Xe.

r(pm)=((2.92×10−25 mol)(131.30 g⋅mol−12.83 g⋅cm−3)(1010 pm1 cm)3)1/3=238 pm

Substitute 4.4 g⋅cm−3 for density, 222 g⋅mol−1 for molar mass in equation (5) to determine value of r for Rn.

r(pm)=((2.92×10−25 mol)(222 g⋅mol−14.4 g⋅cm−3)(1010 pm1 cm)3)1/3=245 pm

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Students have asked these similar questions

A flask contains a mixture of neon (Ne), krypton (Kr), and radon (Rn) gases. Compare (a) the average kinetic energies of the three types of atoms and (b) the root-mean-square speeds. (Hint: Appendix D shows the molar mass (in g>mol) of each element under the chemical symbol for that element.)

The reaction of lithium with sulfur is similar to that of sodium with sulfur. Write the balanced chemical equation for the reaction of lithium with sulfur. Include phase symbols.

Write the balanced chemical equation for conversion of Al(s) to KAl(SO4)2·12H2O(s) in aqueous solution.

Answer 2