From 41f1f72e9502f5c3de6ca16b303803dfcf1df594 Mon Sep 17 00:00:00 2001 From: Thomas Stephen Lee Date: Fri, 4 Sep 2015 22:04:10 +0530 Subject: add/remove/update books --- Engineering_Economics/Chapter10.ipynb | 357 ---------------------------------- 1 file changed, 357 deletions(-) delete mode 100755 Engineering_Economics/Chapter10.ipynb (limited to 'Engineering_Economics/Chapter10.ipynb') diff --git a/Engineering_Economics/Chapter10.ipynb b/Engineering_Economics/Chapter10.ipynb deleted file mode 100755 index bc34bb84..00000000 --- a/Engineering_Economics/Chapter10.ipynb +++ /dev/null @@ -1,357 +0,0 @@ -{ - "metadata": { - "name": "", - "signature": "sha256:28b0077be1a0d41b0cc471c0e34331f1edde6c138991b53632e2c3b3cb0de57c" - }, - "nbformat": 3, - "nbformat_minor": 0, - "worksheets": [ - { - "cells": [ - { - "cell_type": "heading", - "level": 1, - "metadata": {}, - "source": [ - "Evaluation of Public Alternatives" - ] - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": [ - "Example 10.1 Page 138" - ] - }, - { - "cell_type": "code", - "collapsed": false, - "input": [ - "#initiation of variable\n", - "Ii=4000000.0;#in Rs.\n", - "AM=150000.0;#in Rs.\n", - "AFS=600000.0;#in Rs.\n", - "Einc=50000.0;#in Rs.\n", - "i=12.0;#in % per annum\n", - "n=15.0;#in years\n", - "\n", - "#calculation\n", - "Cp=AM*(((1+i/100)**n)-1)/((i/100)*(1+i/100)**n);#in Rs\n", - "TPW=Ii+Cp;#in RS\n", - "\n", - "#result\n", - "print \"Total present worth of costs in RS. : \",round(TPW,3);\n", - "\n", - "#Total present worth of fuel savings:\n", - "AI=600000.0;#in Rs.\n", - "G=50000.0;#in Rs.\n", - "i=12.0;#in % per annum\n", - "n=15.0;#in years\n", - "\n", - "#calculation\n", - "A=AI+G*(((1+i/100)**n)-i*n/100-1)/(((i/100)*(1+i/100)**n)-i/100);#in RS\n", - "Bp=A*(((1+i/100)**n)-1)/((i/100)*(1+i/100)**n);#in Rs.\n", - "BCratio=Bp/(Ii+Cp);#unitless\n", - "\n", - "#result\n", - "print \"Present worth of fuel savings in Rs. : \",round(Bp,3);\n", - "print \"BCratio : \",round(BCratio,3);\n", - "print\"Since BC ratio is more than 1, the construction of the bridge across the river is justified.\";\n", - "print\"answers are slightly different from the book due to approximation\"" - ], - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": [ - "Total present worth of costs in RS. : 5021629.673\n", - "Present worth of fuel savings in Rs. : 5782527.265\n", - "BCratio : 1.152\n", - "Since BC ratio is more than 1, the construction of the bridge across the river is justified.\n", - "answers are slightly different from the book due to approximation\n" - ] - } - ], - "prompt_number": 1 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": [ - "Example 10.2 Page 139" - ] - }, - { - "cell_type": "code", - "collapsed": false, - "input": [ - "#initiation of variable\n", - "Ic=80000000.0;#in Rs.\n", - "Aps=6000000.0;#in Rs.\n", - "Afs=3000000.0;#in Rs.\n", - "Aib=5000000.0;#in Rs.\n", - "Arb=2000000.0;#in Rs.\n", - "Amc=3000000.0;#in Rs.\n", - "i=12.0;#in % per annum\n", - "n=50.0;#in years\n", - "\n", - "#calculation\n", - "TAB=Afs+Aib+Arb;#in Rs.\n", - "PW_B=TAB*(((1+i/100)**n)-1)/((i/100)*(1+i/100)**n);#in Rs\n", - "\n", - "#result\n", - "print \"Total present worth of benefits in RS. : \",round(PW_B,3);\n", - "\n", - "#Present worth of costs:\n", - "PW_C=Ic+Amc*(((1+i/100)**n)-1)/((i/100)*(1+i/100)**n)-Aps*(((1+i/100)**n)-1)/((i/100)*(1+i/100)**n);#in RS\n", - "BCratio=PW_B/PW_C;#unitless\n", - "\n", - "#result\n", - "print \"Present worth of costs in Rs. : \",round(PW_C,3);\n", - "print \"BCratio : \",round(BCratio,3);\n", - "print \"Since BC ratio is more than 1, the state govt. can implement the hydroelectric project.\";" - ], - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": [ - "Total present worth of benefits in RS. : 83044984.884\n", - "Present worth of costs in Rs. : 55086504.535\n", - "BCratio : 1.508\n", - "Since BC ratio is more than 1, the state govt. can implement the hydroelectric project.\n" - ] - } - ], - "prompt_number": 3 - }, - { - "cell_type": "heading", - "level": 3, - "metadata": {}, - "source": [ - "Example 10.3 Page 140" - ] - }, - { - "cell_type": "code", - "collapsed": false, - "input": [ - "#initiation of variable\n", - "#alternative 1\n", - "P=3000000.0;#in Rs.\n", - "B=900000.0;#in Rs.\n", - "i=10.0;#in % per annum\n", - "n=5.0;#in years\n", - "\n", - "#calculation\n", - "AE1=P*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);#in Rs\n", - "BCratio=B/AE1;#unitless\n", - "\n", - "#result\n", - "print \"Annual equivalent of initial cost in Rs. : \",round(AE1,3);\n", - "print \"BCratio : \",round(BCratio,3);\n", - "\n", - "#Alternative A2 : \n", - "P=6000000.0;#in Rs.\n", - "B=1500000.0;#in Rs.\n", - "i=10.0;#in % per annum\n", - "n=7.0;#in years\n", - "\n", - "#calculation\n", - "AE2=P*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);#in Rs\n", - "BCratio=B/AE2;#unitless\n", - "\n", - "#result\n", - "print \"Annual equivalent of initial cost in Rs. : \",round(AE2,3);\n", - "print \"BCratio : \",round(BCratio,3);\n", - "print \"The benefit cost ratio of alternative 2 is more than that of alternative A1. Hence, alternative A2 is to be selected. The comparisoon is made on a 35 years period which is the minimum common multiple of the lives of alternative 1 and 2\";" - ], - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": [ - "Annual equivalent of initial cost in Rs. : 791392.442\n", - "BCratio : 1.137\n", - "Annual equivalent of initial cost in Rs. : 1232432.998\n", - "BCratio : 1.217\n", - "The benefit cost ratio of alternative 2 is more than that of alternative A1. Hence, alternative A2 is to be selected. The comparisoon is made on a 35 years period which is the minimum common multiple of the lives of alternative 1 and 2\n" - ] - } - ], - "prompt_number": 4 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": [ - "Example 10.4 Page 141" - ] - }, - { - "cell_type": "code", - "collapsed": false, - "input": [ - "#initiation of variable\n", - "#cost of the state\n", - "n=20.0;#in years\n", - "P=2500000000.0;#in Rs.\n", - "Agt=10000000.0;#in Rs.\n", - "Ai=1000000.0;#in Rs.\n", - "Com=48000.0;#in Rs./year/employee\n", - "C1=Com*300;#in Rs.\n", - "i=10.0;#in % per annum\n", - "\n", - "#calculation\n", - "C2=P*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);#in Rs\n", - "CA=C2+C1;#in Rs\n", - "\n", - "#result\n", - "print \"Annual equivalent initial cost in Rs. : \",round(C2,3);\n", - "print \"Total Annual equivalent cost of the project in Rs. : \",round(CA,3);\n", - "\n", - "#Benefit to the state : \n", - "W=30000000.0;#in Rs.\n", - "A1=W*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);#in Rs.\n", - "Agpy=10000000.0;#in ton/year\n", - "A2=Agpy*(30-10);#in Rs.\n", - "AvgAI=1000000.0;#in tons Km.\n", - "G=20000000.0;#in Rs.\n", - "\n", - "#calculation\n", - "A3=A2+G*(((1+i/100)**n)-i*n/100-1)/(((i/100)*(1+i/100)**n)-i/100) ;#in Rs.\n", - "BA=A1+A3;#in Rs\n", - "BCratio=BA/CA;#unitless\n", - "print \"Annual equivalent average of transport cost saving in Rs. : \",round(A3,3);\n", - "print \"Total annual equivalent benefits to the state : \",round(BA,3);\n", - "print \"BCratio : \",round(BCratio,3);\n", - "print \"The benefit cost ratio is more than 1,the project is justified.\";\n", - "print \"the slight error in the answer of the book is due to approximation error\"" - ], - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": [ - "Annual equivalent initial cost in Rs. : 293649061.931\n", - "Total Annual equivalent cost of the project in Rs. : 308049061.931\n", - "Annual equivalent average of transport cost saving in Rs. : 330161500.91\n", - "Total annual equivalent benefits to the state : 333685289.653\n", - "BCratio : 1.083\n", - "The benefit cost ratio is more than 1,the project is justified.\n", - "the slight error in the answer of the book is due to approximation error\n" - ] - } - ], - "prompt_number": 1 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": [ - "Example 10.5 Page 143" - ] - }, - { - "cell_type": "code", - "collapsed": false, - "input": [ - "#initiation of variable\n", - "#project A\n", - "i=9.0;#% per annum\n", - "n=50.0;#in years\n", - "P_A=150000000.0;#in RS.\n", - "Fcs_A=2500000;#in Rs.\n", - "Ib_A=3500000;#in Rs.\n", - "Rb_A=1000000;#in RS.\n", - "OMC_A=2000000.0;#in Rs.\n", - "Psy_A=10000000.0;#in Rs.\n", - "\n", - "#calculation\n", - "AE_A=P_A*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);\n", - "Cpy_A=AE_A+OMC_A-Psy_A;#in Rs.\n", - "Bpy_A=Fcs_A+Ib_A+Rb_A;#in Rs.\n", - "BCratio_A=Bpy_A/Cpy_A;#unitless\n", - "\n", - "#result\n", - "print \"Costs/year : \",round(Cpy_A,3);\n", - "print \"Benefits/year : \",round(Bpy_A,3);\n", - "print \"BC Ratio of project A : \",round(BCratio_A,3)\n", - "\n", - "\n", - "#Project B : \n", - "P_B=250000000.0;#in Rs.\n", - "\n", - "OMC_B=2500000.0;#in Rs.\n", - "Psy_B=12000000.0;#in Rs.\n", - "Fcs_B=3500000.0;#in Rs.\n", - "Ib_B=4500000.0;#in Rs.\n", - "Rb_B=2000000.0;#in RS.\n", - "AE_B=P_B*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);\n", - "Cpy_B=AE_B+OMC_B-Psy_B;#in Rs.\n", - "Bpy_B=Fcs_B+Ib_B+Rb_B;#in Rs.\n", - "BCratio_B=Bpy_B/Cpy_B;#unitless\n", - "\n", - "#result\n", - "print \"Costs/year : \",round(Cpy_B,3);\n", - "print \"Benefits/year : \",round(Bpy_B,3);\n", - "print \"BC Ratio of project B : \",round(BCratio_B,3)\n", - "\n", - "#Project C : \n", - "P_C=400000000.0;#in Rs.\n", - "OMC_C=3500000.0;#in Rs.\n", - "Psy_C=18000000.0;#in Rs.\n", - "Fcs_C=5000000.0;#in Rs.\n", - "Ib_C=6000000.0;#in Rs.\n", - "Rb_C=3500000.0;#in RS.\n", - "AE_C=P_C*((i/100)*(1+i/100)**n)/(((1+i/100)**n)-1);\n", - "Bpy_C=Fcs_C+Ib_C+Rb_C;#in Rs.\n", - "Cpy_C=AE_C+OMC_C-Psy_C;#in Rs.\n", - "BCratio_C=Bpy_C/Cpy_C;#unitless\n", - "\n", - "#result\n", - "print \"Costs/year : \",round(Cpy_C,3);\n", - "print \"Benefits/year : \",round(Bpy_C,3);\n", - "print \"BC Ratio of project C : \",round(BCratio_C,3)\n", - "print\"From the computations it is clear that only alternative A is eligible because other two alternatives have BC ratio less than one.\"" - ], - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": [ - "Costs/year : 5684030.212\n", - "Benefits/year : 7000000.0\n", - "BC Ratio of project A : 1.232\n", - "Costs/year : 13306717.021\n", - "Benefits/year : 10000000.0\n", - "BC Ratio of project B : 0.752\n", - "Costs/year : 21990747.233\n", - "Benefits/year : 14500000.0\n", - "BC Ratio of project C : 0.659\n", - "From the computations it is clear that only alternative A is eligible because other two alternatives have BC ratio less than one.\n" - ] - } - ], - "prompt_number": 8 - } - ], - "metadata": {} - } - ] -} \ No newline at end of file -- cgit