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+{

+ "metadata": {

+  "name": "",

+  "signature": "sha256:29de63e7ef1a8622d7d2e459bd1b9274805adbb7b74a608deb83d9b4c0dd3ef4"

+ },

+ "nbformat": 3,

+ "nbformat_minor": 0,

+ "worksheets": [

+  {

+   "cells": [

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Chapter22-Superconductivity"

+     ]

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Ex1-pg646"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "import math\n",

+      "##Example 22.1\n",

+      "##calculation of magnetic field\n",

+      "\n",

+      "##given values\n",

+      "\n",

+      "Tc=7.2;##transition temp in K\n",

+      "T=5.;##temp in K\n",

+      "Hc=3.3*10**4;##magnetic field at T in A/m\n",

+      "\n",

+      "\n",

+      "##calculation\n",

+      "Hc0=Hc/(1-(T**2/Tc**2));\n",

+      "print'%s %.2f %s'%('max value of H at 0K (in A/m) is ',Hc0,'');\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "max value of H at 0K (in A/m) is  63737.70 \n"

+       ]

+      }

+     ],

+     "prompt_number": 1

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Ex2-pg646"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "import math\n",

+      "##Example 22.2\n",

+      "##calculation of transition temperature\n",

+      "\n",

+      "##given values\n",

+      "\n",

+      "T=8.;##temp in K\n",

+      "Hc=1*10**5.;##critical magnetic field at T in A/m\n",

+      "Hc0=2*10**5.;##magnetic field at 0 K in A/m\n",

+      "\n",

+      "##calculation\n",

+      "Tc=T/(math.sqrt(1.-Hc/Hc0));\n",

+      "print'%s %.2f %s'%('transition temp in K is',Tc,'');\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "transition temp in K is 11.31 \n"

+       ]

+      }

+     ],

+     "prompt_number": 3

+    },

+    {

+     "cell_type": "heading",

+     "level": 2,

+     "metadata": {},

+     "source": [

+      "Ex3-pg647"

+     ]

+    },

+    {

+     "cell_type": "code",

+     "collapsed": false,

+     "input": [

+      "import math\n",

+      "##Example 22.3\n",

+      "##calculation of temp at which there is  max critical field\n",

+      "\n",

+      "##given values\n",

+      "\n",

+      "Tc=7.26;##critical temp in K\n",

+      "Hc=8*10**5.;##max critical magnetic field at T in A/m\n",

+      "H=4*10**4.;## subjected magnetic field at in A/m\n",

+      "\n",

+      "##calculation\n",

+      "T=Tc*(math.sqrt(1.-H/Hc));\n",

+      "print'%s %.2f %s'%('max temp for superconductivity in K is',T,'');\n"

+     ],

+     "language": "python",

+     "metadata": {},

+     "outputs": [

+      {

+       "output_type": "stream",

+       "stream": "stdout",

+       "text": [

+        "max temp for superconductivity in K is 7.08 \n"

+       ]

+      }

+     ],

+     "prompt_number": 4

+    }

+   ],

+   "metadata": {}

+  }

+ ]

+}
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