Question #5d8ea
1 Answer
(3)
Explanation:
Given four different masses of substances, we're asked which substance contains the most atoms.
Most periodic tables list each element's molar/atomic mass beneath its symbol (for hydrogen, it should say
The molar masses of each of these elements (from a periodic table, or online) are
-
#"He"# :#4.00"g"/"mol"# -
#"N"# :#14.01"g"/"mol"# (#"N"_2 = 28.02"g"/"mol"# ) -
#"H"# :#1.01"g"/"mol"# (#"H"_2 = 2.02"g"/"mol"# ) -
#"O"# :#16.00"g"/"mol"# (#"O"_2 = 32.00"g"/"mol"# )
(each rounded to two decimal places)
The diatomic values were listed next to the diatomic elements, and are simply twice its molar mass.
Using dimensional analysis , we can convert each of the given masses to moles, using their molar masses:
-
#6cancel("g He")((1color(white)(l)"mol He")/(4.00cancel("g He"))) = 1.50# #"mol He"# -
#28cancel("g N"_2)((1color(white)(l)"mol N"_2)/(28.02cancel("g N"_2))) = 0.999# #"mol N"_2# -
#4cancel("g H"_2)((1color(white)(l)"mol H"_2)/(2.02cancel("g H"_2))) = 1.98# #"mol H"_2# -
#48cancel("g O"_2)((1color(white)(l)"mol O"_2)/(32.00cancel("g O"_2))) = 1.50# #"mol O"_2#
Now what we can do is use Avogadro's number to calculate the number of particles of each substance:
#1.50cancel("mol He")((6.022xx10^23color(white)(l)"atoms He")/(1cancel("mol He")))#
#= 9.03 xx 10^23# #"atoms He"#
#0.999cancel("mol N"_2)((6.022xx10^23color(white)(l)"molecules N"_2)/(1cancel("mol N"_2)))#
#= 6.02xx10^23# #"molecules N"_2#
#1.98cancel("mol H"_2)((6.022xx10^23color(white)(l)"molecules H"_2)/(1cancel("mol H"_2)))#
#= 1.19xx10^24# #"molecules H"_2#
#1.50cancel("mol O"_2)((6.022xx10^23color(white)(l)"molecules O"_2)/(1cancel("mol O"_2)))#
#=9.03xx10^23# #"molecules O"_2#
And since each diatomic species contains
-
#9.03xx10^23# #"atoms He"# -
#6.02xx10^23# #"molecules N"_2 xx 2 = 1.20xx10^24# #"atoms N"# -
#1.19xx10^24# #"molecules H"_2 xx 2 = 2.38xx10^24# #"atoms H"# -
#9.03xx10^23# #"molecules O"_2 xx 2 = 1.81xx10^24# #"atoms O"#
The largest value is that of hydrogen, so option (3) is correct.
