From 83c1bfceb1b681b4bb7253b47491be2d8b2014a1 Mon Sep 17 00:00:00 2001 From: debashisdeb Date: Fri, 20 Jun 2014 15:42:42 +0530 Subject: removing problem statements --- .../CH14.ipynb | 24 ---------------------- 1 file changed, 24 deletions(-) (limited to 'Materials_science_and_engineering_an_introduction/CH14.ipynb') diff --git a/Materials_science_and_engineering_an_introduction/CH14.ipynb b/Materials_science_and_engineering_an_introduction/CH14.ipynb index 7ade4dbe..e860f213 100644 --- a/Materials_science_and_engineering_an_introduction/CH14.ipynb +++ b/Materials_science_and_engineering_an_introduction/CH14.ipynb @@ -27,11 +27,7 @@ "cell_type": "code", "collapsed": false, "input": [ - "#Computation of average Molecular wt and Degree of Polymerisation\n", "\n", - "#Given\n", - "#For different molecular wt range ,\n", - "#From Table 14.1 (a)\n", "Mi1=7500 #g/mol , Molecular wt\n", "Mi2=12500 \n", "Mi3=17500\n", @@ -47,7 +43,6 @@ "xi6=0.08\n", "xi7=0.02\n", "\n", - "#Calculation\n", "xM1=Mi1*xi1\n", "xM2=Mi2*xi2\n", "xM3=Mi3*xi3\n", @@ -57,7 +52,6 @@ "xM7=Mi7*xi7\n", "xM=xM1+xM2+xM3+xM4+xM5+xM6+xM7\n", "\n", - "#(b)\n", "nC=2 #no of carbon atoms in repeat unit\n", "nH=3 #no of hydrogen atoms in repeat unit\n", "nCl=1 #no of chlorine atoms in repeat unit\n", @@ -67,7 +61,6 @@ "m=nC*MwC+nH*MwH+nCl*MwCl #Total wt for PVC\n", "DP=xM/m\n", "\n", - "#(c) from fig 14.3 (b)\n", "wi1=0.02 #weight fraction\n", "wi2=0.1\n", "wi3=0.18\n", @@ -76,7 +69,6 @@ "wi6=0.13\n", "wi7=0.02\n", "\n", - "#Calculation\n", "wM1=Mi1*wi1\n", "wM2=Mi2*wi2\n", "wM3=Mi3*wi3\n", @@ -86,7 +78,6 @@ "wM7=Mi7*wi7\n", "wM=wM1+wM2+wM3+wM4+wM5+wM6+wM7\n", "\n", - "#Result\n", "print\"(a)The no Av Molecular wt is\",xM,\"g/mol\"\n", "print\"(b)Degree of Polymerisation is\",round(DP,0)\n", "print\"(c)The weight Av Molecular wt is\",wM,\"g/mol\"\n" @@ -118,9 +109,7 @@ "cell_type": "code", "collapsed": false, "input": [ - "#Computations of the Density\n", "\n", - "#Given\n", "Ac=12.01 #in g/mol Molecular weight of Carbon\n", "Ah=1.008 #in g/mol molecular weight of hydrogen\n", "a=7.41*10**-8 #in cm\n", @@ -128,18 +117,15 @@ "c=2.55*10**-8 #in cm\n", "Na=6.023*10**23\n", "\n", - "#calculation\n", "Vc=a*b*c\n", "n=2\n", "A=(2*Ac)+(4*Ah)\n", "density_c=n*A/(Vc*Na)\n", "\n", - "#(b)Percent Crystallinity of Polyethylene\n", "density_a=0.870 # in g/cm**3\n", "density_s=0.925 # in g/cm**3\n", "pc=density_c*(density_s-density_a)*100/(density_s*(density_c-density_a))\n", "\n", - "#Result\n", "print\"(a)Density is\",round(density_c,3),\"g/cm**3\"\n", "print\"(b)percentage crystallinity is\",round(pc,1),\"%\"\n", "\n" @@ -170,31 +156,21 @@ "cell_type": "code", "collapsed": false, "input": [ - "#Computations of Diffusion Flux of Carbon dioxide through Plasic Beverage Container\n", "\n", - "#function[A]= approx(V,n)\n", - "# A= round(V*10**n)/10**n\n", - "# funcprot(0)\n", - "#endfunction\n", "\n", - "#print\"\\tExample 14.3\\n\")\n", "\n", - "#a\n", "P1=400000.0 # in Pa Pressure inside the bottle\n", "P2=400.0 # in Pa Pressure outside the bottle\n", "Pm=0.23*10**-13 #Solubility Coefficient\n", "dx=0.05 # in cm Thickness of wall\n", "\n", - "#calculation\n", "J=(-Pm*(P2-P1)/dx)\n", - "#(b)Beverage Shell Life\n", "\n", "A=500 #surface area of bottle in cm**2\n", "V_lose=750.0 #cm**3 STP\n", "V=J*A\n", "t=V_lose/round(V,5)\n", "\n", - "#Result\n", "print\"Diffusion flux is \",round(J,9),\"cm**3 STP/cm**2-s\"\n", "print\"Time to escape is \",round(t/(3600*24),1),\"days\"\n", "\n" -- cgit