Answer:
They meet at the distance of 32.5 cm
Explanation:
The rate of diffusion is inversely proportional to the molar mass of gases.
If diffusion is represented as d and mass of gases as M. Then , rate is given as:
[tex]d=k\sqrt{\frac{1}{M}}[/tex]
For , two gases
[tex]\frac{d_{1}}{d_{2}}=\sqrt{\frac{M_{2}}{M_{1}}}[/tex]
First , Calculate the ,molar mass of each gas :
CH4 = 1 (mass of C) + 4(mass of H)
= 1(12)+4(1)
= 12 + 4 = 16 gram
M1 = 16 gram
C4H8 = 4(mass of C) + 8(Mass of H)
= 4(12) + 8(1)
= 48 + 8
M2 = 56 grams
d1 is diffusion of CH4
d2 = diffusion of C4H8
[tex]\frac{d_{1}}{d_{2}}=\sqrt{\frac{M_{2}}{M_{1}}}[/tex]
[tex]\frac{d_{1}}{d_{2}}=\sqrt{\frac{56}{16}[/tex]}
[tex]\frac{d_{1}}{d_{2}} = 1.87[/tex]
This means CH4 diffuse 1.87 times faster than C4H8
Now, the mathematical part
If velocity of C4H8 = 1 cm/sec , then velocity of CH4 = 1.87 cm/sec
v1 = 1.87 cm/sec
v2 = 1 cm/sec
Let both meet at time "t". If distance travelled by CH4(s1) = x , then remaining(s2) distance (50-x) is travelled by C4H8
(see the attached image)
[tex]time =\frac{distance}{speed}[/tex]
since both meet at same time so t = constant.
[tex]\frac{s1}{v1}=\frac{s2}{v2}[/tex]
[tex]\frac{x}{1.87}\frac{50-x}{1.00}[/tex]
on solving for x we get,
x = 17.42 cm
from the other side the distance is (50 - x)
= 50 - 17.42 = 32.5 cm
