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| author | Trupti Kini | 2016-03-24 23:30:28 +0600 |
|---|---|---|
| committer | Trupti Kini | 2016-03-24 23:30:28 +0600 |
| commit | 1af80a22f9c11d7c73deb42ccc9859a9bf9dfe8b (patch) | |
| tree | 7bdf9b414ff83bf82bfb3077b3ff151cc08c1d86 /Machine_Design_by_U.C._Jindal/Ch17_1.ipynb | |
| parent | 18cbc0dd7321c83b3ee97f483269b49ece11c7c2 (diff) | |
| download | Python-Textbook-Companions-1af80a22f9c11d7c73deb42ccc9859a9bf9dfe8b.tar.gz Python-Textbook-Companions-1af80a22f9c11d7c73deb42ccc9859a9bf9dfe8b.tar.bz2 Python-Textbook-Companions-1af80a22f9c11d7c73deb42ccc9859a9bf9dfe8b.zip | |
Added(A)/Deleted(D) following books
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/Chapter3_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/Chapter4_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/Chapter5_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/Chapter6_1.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/Chapter7_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/Chapter9_1.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter10_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter12_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter13_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter14_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter15_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter16_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter17_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter19_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter20_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter21_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter22_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter23_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter24_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter25_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter26_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter27_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter28_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter29_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter30_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter31_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter32_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter33_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter34_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter35_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/chapter36_2.ipynb
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/screenshots/Clipper_waveform_1.png
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/screenshots/Gate_to_Source_Voltage_vs_Drain_Current_1.png
A A_Textbook_of_Applied_Electronics_by_R_S_Sedha/screenshots/transconductance_curve_1.png
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter11_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter13_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter14_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter15_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter16_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter17_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter21_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter22_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter23_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter26_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter2_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter4_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter5_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/Chapter9_2.ipynb
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/screenshots/21AOQCurve_2.png
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/screenshots/21X&RChart_2.png
A A_Textbook_of_Production_Engineering_by_P._C._Sharma/screenshots/22CuttingVvsCutterDia_2.png
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER01_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER02_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER03_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER04_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER07_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER09_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER11_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER15_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER16_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER18_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER19_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER20_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER23_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/CHAPTER24_1.ipynb
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/screenshots/Capture02_1.png
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/screenshots/Capture04_1.png
A Electrical_Engineering_Fundamentals_by__Del_Toro_Vincent_/screenshots/Capture20_1.png
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter2_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter3_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter4_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter6_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter7_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter8_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/Chapter9_2.ipynb
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/screenshots/chapter2_2.png
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/screenshots/chapter3_2.png
A High_Voltage_Engineering_by_V_Kamaraju_,_M_S_Naidu/screenshots/chapter4_2.png
A Machine_Design_by_U.C._Jindal/Ch10_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch11_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch12_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch13_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch14_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch15_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch16_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch17_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch18_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch19_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch20_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch21_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch22_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch23_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch24_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch25_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch26_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch27_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch28_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch29_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch30_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch31_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch3_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch4_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch5_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch6_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch7_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch8_1.ipynb
A Machine_Design_by_U.C._Jindal/Ch9_1.ipynb
A Machine_Design_by_U.C._Jindal/screenshots/Chapter-3stressgraph_1.png
A Machine_Design_by_U.C._Jindal/screenshots/Chapter-_8AdditionalLoad_1.png
A Machine_Design_by_U.C._Jindal/screenshots/Chapter11_-_strengthofrevet_1.png
A Power_System_Operation_and_Control_by_B._R._Gupta/Chapter1_1.ipynb
A Power_System_Operation_and_Control_by_B._R._Gupta/Chapter2_1.ipynb
A Power_System_Operation_and_Control_by_B._R._Gupta/Chapter3_1.ipynb
A Power_System_Operation_and_Control_by_B._R._Gupta/Chapter4_1.ipynb
A Power_System_Operation_and_Control_by_B._R._Gupta/Chapter5_1.ipynb
A Power_System_Operation_and_Control_by_B._R._Gupta/Chapter6_1.ipynb
A Power_System_Operation_and_Control_by_B._R._Gupta/screenshots/Ch1-EnergyLadCurveAndMassCurve_1.png
A Power_System_Operation_and_Control_by_B._R._Gupta/screenshots/Ch2-LoadGeneration_1.png
A Power_System_Operation_and_Control_by_B._R._Gupta/screenshots/Ch2-ReceivedPower_1.png
Diffstat (limited to 'Machine_Design_by_U.C._Jindal/Ch17_1.ipynb')
| -rw-r--r-- | Machine_Design_by_U.C._Jindal/Ch17_1.ipynb | 366 |
1 files changed, 366 insertions, 0 deletions
diff --git a/Machine_Design_by_U.C._Jindal/Ch17_1.ipynb b/Machine_Design_by_U.C._Jindal/Ch17_1.ipynb new file mode 100644 index 00000000..bd4b86bc --- /dev/null +++ b/Machine_Design_by_U.C._Jindal/Ch17_1.ipynb @@ -0,0 +1,366 @@ +{ + "cells": [ + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "# Ch:17 Sliding contact bearings" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-1 - Page 482" + ] + }, + { + "cell_type": "code", + "execution_count": 1, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + " Tav is 47.29 degC \n", + "\n", + " delT is 7.3 degC \n" + ] + } + ], + "source": [ + "from __future__ import division\n", + "from math import pi, sqrt\n", + "Ta=22#\n", + "u=7/10**9#\n", + "nj=20#\n", + "r=25#\n", + "l=2*r#\n", + "Ao=30000#\n", + "Uo=15.3/10**3#\n", + "c=0.025#\n", + "#specific weight of the material is rho\n", + "rho=8.46*(10**-6)#\n", + "Cp=179.8#\n", + "Tf=Ta+(16*pi**3*u*nj**2*l*r**3/(Uo*Ao*c))#\n", + "# avg mean film temperature is Tav\n", + "Tav=(Tf-Ta)/2#\n", + "x= l*c*rho*pi*r*nj*Cp*10**3#\n", + "y=Ao*Tav*Uo#\n", + "delT=y/x#\n", + "print \" Tav is %0.2f degC \"%(Tav)#\n", + "print \"\\n delT is %0.1f degC \"%(delT)#" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-2 - Page 482" + ] + }, + { + "cell_type": "code", + "execution_count": 2, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "u is 6.293 cP \n" + ] + } + ], + "source": [ + "l=60#\n", + "d=60#\n", + "r=d/2#\n", + "ho=0.008#\n", + "c=0.04#\n", + "S=0.0446#\n", + "nj=1260/60#\n", + "W=6000#\n", + "p=W/(l*d)#\n", + "u=S*(c/r)**2*p/nj#\n", + "u=u*10**9#\n", + "print \"u is %0.3f cP \"%(u)#" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-3 - Page 483" + ] + }, + { + "cell_type": "code", + "execution_count": 3, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + " u is 3.469 cP \n", + "\n", + " Q is 0.2874 lpm \n" + ] + } + ], + "source": [ + "d=60#\n", + "r=30#\n", + "l=60#\n", + "c=0.8*10**-3*r#\n", + "ho=0.2*c#\n", + "W=21000/2#\n", + "p=W/(l*d)#\n", + "S=0.0446#\n", + "nj=1440/60#\n", + "u=S*(c/r)**2*p/nj#\n", + "u=u*10**9#\n", + "# since Q/(r*nj*l)=4.62\n", + "Q=4.62*r*c*nj*l#\n", + "Q=Q*60/10**6#\n", + "print \" u is %0.3f cP \"%(u)#\n", + "print \"\\n Q is %0.4f lpm \"%(Q)#" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-4 - Page 483" + ] + }, + { + "cell_type": "code", + "execution_count": 4, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + " f is 0.00985 \n", + "\n", + " ho is 0.032 mm \n", + "\n", + " Q is 0.638 lpm \n", + "\n", + " delT is 8.3 degC \n", + "\n", + " Pf is 0.1337 KW \n" + ] + } + ], + "source": [ + "from numpy import mat,pi,sqrt\n", + "l=60#\n", + "d=60#\n", + "r=d/2#\n", + "W=3000#\n", + "p=W/(l*d)#\n", + "u=30*10**-9#\n", + "c=0.06#\n", + "nj=1440/60#\n", + "S=(r/c)**2*u*nj/p#\n", + "#For ratio l/d=1, values of different parameters are given in matrix A corresponding to S\n", + "A=mat([[0,0,0,0,0,0],[0,1, 0.264, 0.6, 5.79, 3.99],[0,1, 0.121, 0.4 ,3.22, 4.33]])#\n", + "#let ho/c=x\n", + "x=(A[1,3])-((A[1,3]-(A[2,3]))*((A[1,2])-S)/((A[1,2])-(A[2,2])))#\n", + "#let y= (r/c)*f=CFV\n", + "y=(A[1,4])-(A[1,4]-(A[2,4]))*((A[1,2])-S)/((A[1,2])-(A[2,2]))#\n", + "#let z=Q/(r*c*nj*l)=FV\n", + "z=(A[1,5])-((A[1,5]-(A[2,5]))*((A[1,2])-S)/((A[1,2])-(A[2,2])))#\n", + "f=y*c/r#\n", + "ho=x*c#\n", + "Q=z*r*c*nj*l#\n", + "Q=Q*60/10**6#\n", + "delT=8.3*p*y/z#\n", + "#let power lost in friction be Pf\n", + "Pf=2*pi*nj*f*W*r/10**6#\n", + "print \" f is %0.5f \"%(f)#\n", + "print \"\\n ho is %0.3f mm \"%(ho)#\n", + "print \"\\n Q is %0.3f lpm \"%(Q)#\n", + "print \"\\n delT is %0.1f degC \"%(delT)#\n", + "print \"\\n Pf is %0.4f KW \"%(Pf)#" + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-5 - Page 484" + ] + }, + { + "cell_type": "code", + "execution_count": 5, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + " d is 96 mm \n", + "\n", + " l is 96 mm \n", + "\n", + " ho is 0.0166 mm \n", + "\n", + " Q is 1.701 lpm \n" + ] + } + ], + "source": [ + "from math import sqrt, pi\n", + "W=22000#\n", + "nj=960/60#\n", + "p=2.4#\n", + "u=20*10**-9#\n", + "d=sqrt(W/p)#\n", + "d=96#\n", + "r=d/2#\n", + "l=d#\n", + "S=0.0446#\n", + "pact=W/(l*d)#\n", + "#x=r/c#\n", + "x=sqrt(S*pact/(u*nj))#\n", + "c=r/x#\n", + "ho=0.2*c#\n", + "Q=r*c*nj*l*4.62#\n", + "Q=Q*60/10**6#\n", + "print \" d is %0.0f mm \"%(d)#\n", + "print \"\\n l is %0.0f mm \"%(l)#\n", + "print \"\\n ho is %0.4f mm \"%(ho)#\n", + "print \"\\n Q is %0.3f lpm \"%(Q)#\n", + "#The difference in answer to Q is due to rounding -off the value of c." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-6 - Page 485" + ] + }, + { + "cell_type": "code", + "execution_count": 6, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + " pi is 3.946 MPa \n", + "\n", + " Q is 25.52 lpm \n" + ] + } + ], + "source": [ + "from math import log,pi\n", + "W=400*10**3#\n", + "Ro=200#\n", + "Ri=160#\n", + "ho=0.1#\n", + "t=150#\n", + "# specific gravity is rho\n", + "rho=0.86#\n", + "pi=2*W*log(Ro/Ri)/(pi*(Ro**2-Ri**2))#\n", + "zk=(0.22*t)-(180/t)#\n", + "z=rho*zk#\n", + "u=z/(10**9)#\n", + "Q=pi*pi*ho**3/(6*u*log(Ro/Ri))#\n", + "Q=Q*60/10**6#\n", + "print \" pi is %0.3f MPa \"%(pi)#\n", + "print \"\\n Q is %0.2f lpm \"%(Q)#\n", + " \n", + "#The difference in answer to Q is due to rounding -off of values." + ] + }, + { + "cell_type": "markdown", + "metadata": {}, + "source": [ + "## exa 17-7 - Page 486" + ] + }, + { + "cell_type": "code", + "execution_count": 7, + "metadata": { + "collapsed": false + }, + "outputs": [ + { + "name": "stdout", + "output_type": "stream", + "text": [ + "pi is 4.44 MPa \n", + "\n", + "Q is 19.629 lpm \n" + ] + } + ], + "source": [ + "from math import log, pi\n", + "#let number of pads be n\n", + "n=4#\n", + "W=100*10**3#\n", + "Ro=125#\n", + "Ri=50#\n", + "t=200#\n", + "ho=0.15#\n", + "pi=2*W*log(Ro/Ri)/(pi*(Ro**2-Ri**2))#\n", + "zk=(0.22*t)-(180/t)#\n", + "# specific gravity is rho\n", + "rho=0.86#\n", + "z=rho*zk#\n", + "u=z/(10**9)#\n", + "Q=pi*pi*ho**3/(6*u*log(Ro/Ri))#\n", + "Q=Q*60/10**6#\n", + "print \"pi is %0.2f MPa \"%(pi)#\n", + "print \"\\nQ is %0.3f lpm \"%(Q)#" + ] + } + ], + "metadata": { + "kernelspec": { + "display_name": "Python 2", + "language": "python", + "name": "python2" + }, + "language_info": { + "codemirror_mode": { + "name": "ipython", + "version": 2 + }, + "file_extension": ".py", + "mimetype": "text/x-python", + "name": "python", + "nbconvert_exporter": "python", + "pygments_lexer": "ipython2", + "version": "2.7.9" + } + }, + "nbformat": 4, + "nbformat_minor": 0 +} |