Fluids - .0010.0003.0001 r=[0:500:20000 r=[r 22000 24000 26000 28000 30000 40000 50000 60000 70000 v= for n=2:50 v1=4/3*pi(6378000 r(n)^3(6378000

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d=[1.2255 1.1677 1.1120 1.0583 1.0067 .9570 .9092 .8633 .8191 .7768 .7361 .6970. .. .6596 .6237 .5893 .5564 .5250 .4949 .4661 .4387 .4215 .3875 .3637 .3361. .. .3106 .2870 .2652 .2451 .2265 .2094 .1935 .1788 .1652 .1527 .1411. .. .1304 .1205 .1114 .1029 .0951 .0879 .0645 .0469 .0343 .0251 .0184 .0040.
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Unformatted text preview: .. .0010 .0003 .0001]; r=[0:500:20000]; r=[r 22000 24000 26000 28000 30000 40000 50000 60000 70000]; v=; for n=2:50; v1=4/3*pi*((6378000+r(n))^3-(6378000+r(n-1))^3); v=[v v1]; end m=; for n=1:49 m1=v(n)*d(n); m=[m m1]; end t=sum(m); moles=t*1000*6.02e23/28.9...
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This note was uploaded on 09/23/2011 for the course ASE 120K taught by Professor Staff during the Spring '10 term at University of Texas at Austin.

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