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diff --git a/MECHANICS_OF_SOLIDS_by_S.S._Bhavikatti/Chapter1_M2InnXG.ipynb b/MECHANICS_OF_SOLIDS_by_S.S._Bhavikatti/Chapter1_M2InnXG.ipynb deleted file mode 100644 index 080cbafb..00000000 --- a/MECHANICS_OF_SOLIDS_by_S.S._Bhavikatti/Chapter1_M2InnXG.ipynb +++ /dev/null @@ -1,373 +0,0 @@ -{ - "cells": [ - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# Chapter 1-INTRODUCTION TO MECHANICS OF SOLIDS " - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example1.1 Page number 10\n" - ] - }, - { - "cell_type": "code", - "execution_count": 1, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - " The resultant velocity : 21.54 km/hour\n", - "68.2 °\n" - ] - } - ], - "source": [ - "#downstream direction as x\n", - "#direction across river as y\n", - "\n", - "from math import sqrt,atan,pi\n", - "\n", - "#variable declaration\n", - "\n", - "Vx= 8 #velocity of stream, km/hour\n", - "Vy=float(20) #velocity of boat,km/hour\n", - "\n", - "V=sqrt(pow(Vx,2)+pow(Vy,2)) #resultant velocity, km/hour\n", - "theta=Vy/Vx\n", - "\n", - "alpha= atan(theta)*180/pi #angle, degrees \n", - "\n", - "print \" The resultant velocity :\",round(V,2),\"km/hour\"\n", - "print round(alpha,2),\"°\"\n", - "\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example 1.2 Page number 10" - ] - }, - { - "cell_type": "code", - "execution_count": 2, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "10.0 KN (to the left)\n", - "17.32 KN (downward)\n" - ] - } - ], - "source": [ - "\n", - "\n", - "\n", - "#components of force in horizontal and vertical components. \n", - "from math import cos,sin,pi\n", - "#variable declaration\n", - "\n", - "F= 20 #force in wire, KN\n", - "\n", - "#calculations\n", - "Fx= F*cos(60*pi/180) \n", - "Fy= F*sin(60*pi/180)\n", - "\n", - "print round(Fx,2),\"KN\" ,\"(to the left)\"\n", - "print round(Fy,2), \"KN\" ,\"(downward)\"\n", - "\n", - "\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example 1.3 Page number 11" - ] - }, - { - "cell_type": "code", - "execution_count": 3, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "Component normal to the plane : 9.4 KN\n", - "Component parallel to the plane : 3.42 KN\n" - ] - } - ], - "source": [ - "\n", - "\n", - " #The plane makes an angle of 20° to the horizontal. Hence the normal to the plane makes an angles of 70° to the horizontal i.e., 20° to the vertical\n", - "from math import cos,sin,pi\n", - "#variable declaration\n", - "W= 10 # black weighing, KN\n", - "\n", - "#calculations\n", - "\n", - "Nor= W*cos(20*pi/180) #Component normal to the plane\n", - "para= W*sin(20*pi/180) #Component parallel to the plane\n", - "\n", - "print \"Component normal to the plane :\",round(Nor,2),\"KN\"\n", - "print \"Component parallel to the plane :\",round(para,2) , \"KN\"\n", - "\n", - "\n", - "\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example 1.4 Page number 11" - ] - }, - { - "cell_type": "code", - "execution_count": 4, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "F1= 100.0 N\n", - "F2= 200.0 N\n", - "theta= 63.9 °\n" - ] - } - ], - "source": [ - "\n", - "\n", - "#Let the magnitude of the smaller force be F. Hence the magnitude of the larger force is 2F\n", - "\n", - "from math import pi,sqrt, acos\n", - "#variable declaration\n", - "R1=260 #resultant of two forces,N\n", - "R2=float(180) #resultant of two forces if larger force is reversed,N\n", - "\n", - "\n", - "\n", - "#calculations\n", - "\n", - "F=sqrt((pow(R1,2)+pow(R2,2))/10)\n", - "F1=F\n", - "F2=2*F\n", - "theta=acos((pow(R1,2)-pow(F1,2)-pow(F2,2))/(2*F1*F2))*180/pi\n", - "\n", - "print \"F1=\",F1,\"N\"\n", - "print \"F2=\",F2,\"N\"\n", - "print \"theta=\",round(theta,1),\"°\"\n", - "\n", - "\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example 1.5 Page number 12" - ] - }, - { - "cell_type": "code", - "execution_count": 5, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "F1= 326.35 N\n", - "F2= 223.24 N\n" - ] - } - ], - "source": [ - "\n", - "\n", - "#Let ?ABC be the triangle of forces drawn to some scale\n", - "#Two forces F1 and F2 are acting at point A\n", - "#angle in degrees '°'\n", - "\n", - "from math import sin,pi\n", - " \n", - "#variabble declaration\n", - "cnv=pi/180\n", - "\n", - "BAC = 20*cnv #Resultant R makes angle with F1 \n", - " \n", - "ABC = 130*cnv \n", - "\n", - "ACB = 30*cnv \n", - "\n", - "R = 500 #resultant force,N\n", - "\n", - "#calculations\n", - "#sinerule\n", - "\n", - "F1=R*sin(ACB)/sin(ABC)\n", - "F2=R*sin(BAC)/sin(ABC)\n", - "\n", - "print \"F1=\",round(F1,2),\"N\"\n", - "print \"F2=\",round(F2,2),\"N\"\n", - "\n", - "\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example 1.6 Page number 12" - ] - }, - { - "cell_type": "code", - "execution_count": 6, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "theta= 78.13 °\n", - "alpha= 29.29 °\n" - ] - } - ], - "source": [ - "\n", - "\n", - "#Let ABC be the triangle of forces,'theta' be the angle between F1 and F2, and 'alpha' be the angle between resultant and F1 \n", - "\n", - "from math import sin,acos,asin,pi\n", - "\n", - "#variable declaration\n", - "cnv= 180/pi\n", - "F1=float(400) #all forces are in newtons,'N'\n", - "F2=float(260)\n", - "R=float(520)\n", - "\n", - "#calculations\n", - "\n", - "theta=acos((pow(R,2)-pow(F1,2)-pow(F2,2))/(2*F1*F2))*cnv\n", - "\n", - "alpha=asin(F2*sin(theta*pi/180)/R)*cnv\n", - "\n", - "print\"theta=\",round(theta,2),\"°\"\n", - "print \"alpha=\",round(alpha,2),\"°\"\n", - "\n" - ] - }, - { - "cell_type": "markdown", - "metadata": {}, - "source": [ - "# example 1.7 Page number 13" - ] - }, - { - "cell_type": "code", - "execution_count": 7, - "metadata": { - "collapsed": false - }, - "outputs": [ - { - "name": "stdout", - "output_type": "stream", - "text": [ - "horizontal component= 2814.2 N\n", - "Vertical component = 1039.2 N\n", - "Component along crank = 507.1 N\n", - "Component normal to crank= 2956.8 N\n" - ] - } - ], - "source": [ - "\n", - "\n", - "#The force of 3000 N acts along line AB. Let AB make angle alpha with horizontal.\n", - "\n", - "from math import cos,sin,pi,asin,acos\n", - "\n", - "#variable declaration\n", - "F=3000 #force in newtons,'N'\n", - "BC=80 #length of crank BC, 'mm'\n", - "AB=200 #length of connecting rod AB ,'mm'\n", - "theta=60*pi/180 #angle b/w BC & AC\n", - "\n", - "#calculations\n", - "\n", - "alpha=asin(BC*sin(theta)/200)*180/pi\n", - "\n", - "HC=F*cos(alpha*pi/180) #Horizontal component \n", - "VC= F*sin(alpha*pi/180) #Vertical component \n", - "\n", - "#Components along and normal to crank\n", - "#The force makes angle alpha + 60 with crank.\n", - "alpha2=alpha+60\n", - "CAC=F*cos(alpha2*pi/180) # Component along crank \n", - "CNC= F*sin(alpha2*pi/180) #Component normal to crank \n", - "\n", - "\n", - "print \"horizontal component=\",round(HC,1),\"N\"\n", - "print \"Vertical component = \",round(VC,1),\"N\"\n", - "print \"Component along crank =\",round(CAC,1),\"N\"\n", - "print \"Component normal to crank=\",round(CNC,1),\"N\"" - ] - } - ], - "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": "2.7.12" - } - }, - "nbformat": 4, - "nbformat_minor": 0 -} |