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M A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter29.ipynb M A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/chapter32.ipynb A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example32.png A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/screenshots/chapter29example33.png A A_Textbook_of_Electrical_Technology_AC_and_DC_Machines_by_A_K_Theraja_B_L_Thereja/screenshots/chapter32example30.png A Antenna_and_Wave_Propogation_by_U._A._Bakshi_and_A._V._Bakshi/Chapter6Aperture_and_Lens_Antenna.ipynb A Antenna_and_Wave_Propogation_by_U._A._Bakshi_and_A._V._Bakshi/Chapter7Propagation_of_Radio_Waves.ipynb A Electronic_Devices_and_Circuit_Theory_by_R_L_Boylestad_and_Louis_Nashlesky/README.txt A Fluid_mechanicsxyz/Untitled.ipynb A Fluid_mechanicsxyz/screenshots/Selection_001.png A 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Modern_physics_for_engineers_by_S.P.Taneja/screenshots/image3.png A Modern_physics_for_engineers_by_S.P.Taneja/screenshots/image_1.png A Physical_Chemistry_by_D._Farrington/Chapter11_KineticTheory.ipynb A Physical_Chemistry_by_D._Farrington/Chapter12_Chemical_Kinetics.ipynb A Physical_Chemistry_by_D._Farrington/Chapter13_Irreversible_Process_In_Liquids.ipynb A Physical_Chemistry_by_D._Farrington/Chapter14__Electromotive_Force.ipynb A Physical_Chemistry_by_D._Farrington/Chapter15_Ionic_Equilibria.ipynb A Physical_Chemistry_by_D._Farrington/Chapter16_Quantum_Theory.ipynb A Physical_Chemistry_by_D._Farrington/Chapter18_Spectroscopy.ipynb A Physical_Chemistry_by_D._Farrington/Chapter19_Statistical_Mechanics.ipynb A Physical_Chemistry_by_D._Farrington/Chapter20_Macromolecules.ipynb A Physical_Chemistry_by_D._Farrington/Chapter21_Surface_Chemistry.ipynb A Physical_Chemistry_by_D._Farrington/Chapter22_Crystals.ipynb A Physical_Chemistry_by_D._Farrington/Chapter23_Kinetics_PhotoChemistry_Radiation.ipynb A Physical_Chemistry_by_D._Farrington/Chapter24_Nuclear_Chemistry.ipynb A Physical_Chemistry_by_D._Farrington/Chapter2_Gases.ipynb A Physical_Chemistry_by_D._Farrington/Chapter3First_Law_of_Thermodynamics.ipynb A Physical_Chemistry_by_D._Farrington/Chapter4_Thermochemistry.ipynb A Physical_Chemistry_by_D._Farrington/Chapter5_Second_and_Third_Law_of_Thermodynamics.ipynb A Physical_Chemistry_by_D._Farrington/Chapter6_One_Component_Systems.ipynb A Physical_Chemistry_by_D._Farrington/Chapter7_Solutions.ipynb A Physical_Chemistry_by_D._Farrington/Chapter8_Properties_of_Dilute_Solutions.ipynb A Physical_Chemistry_by_D._Farrington/Chapter9_Chemical_Equilibria.ipynb A Physical_Chemistry_by_D._Farrington/screenshots/2.png A Physical_Chemistry_by_D._Farrington/screenshots/5.png A Physical_Chemistry_by_D._Farrington/screenshots/8.png A Solid_State_Physics_Principles_And_Applications_by_R._Asokamani/chapter2.ipynb A Solid_State_Physics_Principles_And_Applications_by_R._Asokamani/screenshots/Plot_of_ln_sigma_vs_1T.png A Solid_State_Physics_Principles_And_Applications_by_R._Asokamani/screenshots/The_binding_energy.png A Solid_State_Physics_Principles_And_Applications_by_R._Asokamani/screenshots/The_lattice_parameter_of_fcc_strucure.png A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/CH2.ipynb A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/CH3.ipynb A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/CH4.ipynb A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/CH5.ipynb A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/CH6.ipynb A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/CH7.ipynb A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/README.txt A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/screenshots/deepak-2-1.png A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/screenshots/deepak-2-2.png A Thermodynamics:_A_Core_Course_by_R._C._Srivastava,_S._K._Saha_And_A._K._Jain/screenshots/deepak-2-3.png A f_by_df/chapter25.ipynb A f_by_df/screenshots/29.png A f_by_df/screenshots/32.png M "sample_notebooks/Raj Kumar/ch3.ipynb"
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+{
+ "cells": [
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "# Chapter 2 Gases"
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "## Example 2.1,Page no.9"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 1,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "volume occupied by 20 grams of carbon dioxide= 11.61 liter\n"
+ ]
+ }
+ ],
+ "source": [
+ "import math\n",
+ "#given\n",
+ "G= 20 #in grams\n",
+ "R= 0.08205 #l−atm/mole K\n",
+ "T= 30 #in Celsius\n",
+ "P= 740 #in mm\n",
+ "M= 44.01 \n",
+ "#CALCULATIONS\n",
+ "V= G*R*(273.15+T)*760/(P*M)\n",
+ "#RESULTS\n",
+ "V=round(V,2)\n",
+ "print 'volume occupied by 20 grams of carbon dioxide=',V,'liter'"
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "## Example 2.2, Page no.9"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 2,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "molecular weight of hydrocarbon= 102.32 g.mole\n"
+ ]
+ }
+ ],
+ "source": [
+ "import math\n",
+ "#given\n",
+ "G= 0.110 #in grams\n",
+ "R= 0.08205 #l−atm /mole K\n",
+ "T= 26.1 #Celsius\n",
+ "P= 743 #in mm\n",
+ "V= 0.0270\n",
+ "#CALCULATIONS\n",
+ "M= G*R*(273.15+T)*760/(P*V)\n",
+ "#RESULTS\n",
+ "M=round(M,2)\n",
+ "print 'molecular weight of hydrocarbon=',M,'g.mole'"
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "## Example 2.4,Pg.no.10"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 3,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "pressure calculated using ideal gas law= 48.93 atm\n",
+ "pressure calculated using vander wals equation= 39.12 atm\n"
+ ]
+ }
+ ],
+ "source": [
+ "import math\n",
+ "#given\n",
+ "R= 0.08205 #l−atm degˆ−1 moleˆ−1\n",
+ "T= 25 #in K\n",
+ "n= 1 #mole\n",
+ "V= 0.5 #liter \n",
+ "b= 0.04267 #lit moleˆ−1\n",
+ "a= 3.592 #lit ˆ2 atm molˆ−2\n",
+ "#CALCULATIONS\n",
+ "P= R*(273.15+T)/V\n",
+ "P1= (R*(273.15+T)/(V-b))-(a/V**2)\n",
+ "#RESULTS\n",
+ "P=round(P,2)\n",
+ "P1=round(P1,2)\n",
+ "print 'pressure calculated using ideal gas law=',P,'atm'\n",
+ "print 'pressure calculated using vander wals equation=',P1,'atm'"
+ ]
+ },
+ {
+ "cell_type": "markdown",
+ "metadata": {},
+ "source": [
+ "## Example 2.5,Pg.no.10"
+ ]
+ },
+ {
+ "cell_type": "code",
+ "execution_count": 4,
+ "metadata": {
+ "collapsed": false
+ },
+ "outputs": [
+ {
+ "name": "stdout",
+ "output_type": "stream",
+ "text": [
+ "volume occupied by mole of oxygen= 0.272 litre moleˆ−1\n"
+ ]
+ }
+ ],
+ "source": [
+ "import math\n",
+ "#given\n",
+ "T= -88 #in Celsius\n",
+ "Tc= 154.4 #in Kelvin\n",
+ "Pc= 49.7 #pressure in atm\n",
+ "P= 44.7 #pressure in atm\n",
+ "R= 0.08205 #atm mˆ3 moleˆ−1 Kˆ−1\n",
+ "r= 0.8\n",
+ "#CALCULATIONS\n",
+ "V= r*R*(273.15+T)/P\n",
+ "#RESULTS\n",
+ "V=round(V,3)\n",
+ "print 'volume occupied by mole of oxygen=',V,'litre moleˆ−1'"
+ ]
+ }
+ ],
+ "metadata": {
+ "anaconda-cloud": {},
+ "kernelspec": {
+ "display_name": "Python [Root]",
+ "language": "python",
+ "name": "Python [Root]"
+ },
+ "language_info": {
+ "codemirror_mode": {
+ "name": "ipython",
+ "version": 2
+ },
+ "file_extension": ".py",
+ "mimetype": "text/x-python",
+ "name": "python",
+ "nbconvert_exporter": "python",
+ "pygments_lexer": "ipython2",
+ "version": "2.7.11"
+ }
+ },
+ "nbformat": 4,
+ "nbformat_minor": 0
+}