Respuesta :
The emperical formula of compound is calculated as:
Atomic ratio for Carbon, [tex] C [/tex]:
[tex] atomic ratio = \frac{46}{12} = 3.833 [/tex]
Atomic ratio for Hydrogen, [tex] H [/tex]:
[tex] atomic ratio = \frac{7.8}{1} = 7.8 [/tex]
Atomic ratio for Chlorine, [tex] Cl [/tex]:
[tex] atomic ratio = \frac{45.72}{35.5} = 1.29 [/tex]
The simplest ratio is:
For Carbon = [tex] \frac{3.833}{1.29} = 2.97 \simeq 3 [/tex]
For Hydrogen = [tex] \frac{7.8}{1.29} = 6.05 \simeq 6 [/tex]
For Chlorine = [tex] \frac{\1.29}{1.29} = 1 [/tex]
So, the emperical formula of the compound is [tex] C_3H_6Cl [/tex].
For determining the molecular formula:
[tex] n = \frac{Molar Mass}{Emperical Formula Mass} [/tex]
Molar Mass = [tex] 155.06 g/mol [/tex]
Emperical Formula Mass = [tex] C_3H_6Cl = 12\times 3+1\times 6+35.5 = 77.5 g/mol [/tex]
Substituting the values,
[tex] n = \frac{155.06 g /mol}{77.5 g /mol} = 2 [/tex]
Since, [tex] Molecular Formula = (Emperical Formula)_{n} [/tex] so, the molecular formula is:
[tex] (C_3H_6Cl)_{2} = C_6H_{12}Cl_2 [/tex]
Answer:- Molecular formula of the compound is [tex]C_6H_1_2Cl_2[/tex] .
Solution:- From given information:
C = 46.47%
H = 7.80%
Cl = 45.72%
First of all we find out the empirical formula from given percentages. We divide the given percentages by their respective atomic masses to calculate the moles:
[tex]C=\frac{46.47}{12.01}[/tex] = 3.87
[tex]H=\frac{7.80}{1.01}[/tex] = 7.72
[tex]Cl=\frac{45.72}{35.45}[/tex] = 1.29
Now, we divide the moles of each by the least one of them. Least one is Cl as it's moles are least as compared to the moles of C and H. So, let's divide the moles of each by 1.29.
[tex]C=\frac{3.87}{1.29}[/tex] = 3
[tex]H=\frac{7.72}{1.29}[/tex] = 6
[tex]Cl=\frac{1.29}{1.29}[/tex] = 1
So, the empirical formula of the compound is [tex]C_3H_6Cl[/tex] .
Empirical formula mass = 3(12.01) + 6(1.01) + 1(35.45)
= 36.03 + 6.06 + 35.45
= 77.54
To calculate the number of formula units we divide molar mass by empirical formula mass.
number of empirical formula units = [tex]\frac{155.06}{77.54}[/tex]
= 2
So, the molecular formula would be two times of empirical formula that is, [tex]C_6H_1_2Cl_2[/tex] .
