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diff --git a/Engineering_Physics/Chapter1_1.ipynb b/Engineering_Physics/Chapter1_1.ipynb deleted file mode 100755 index a3614569..00000000 --- a/Engineering_Physics/Chapter1_1.ipynb +++ /dev/null @@ -1,357 +0,0 @@ -{ - "metadata": { - "name": "Chapter1", - "signature": "sha256:e55f587b2da98ead68f73bb2b4d29bef91aa67eb577c460fb9dcaab92acc4339" - }, - "nbformat": 3, - "nbformat_minor": 0, - "worksheets": [ - { - "cells": [ - { - "cell_type": "heading", - "level": 1, - "metadata": {}, - "source": "1: Ultrasonics" - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.1, Page number 20" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#Variable declaration\nv = 1440; #velocity of ultrasonic waves(m/s)\nt = 0.33; #time elapsed(s)\n\n#Calculation\nd = v*t; #distance travelled(m)\nd1 = d/2; #depth of submarine(m)\n\n#Result\nprint \"depth of the submerged submarine is\",d1, \"m\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "depth of the submerged submarine is 237.6 m\n" - } - ], - "prompt_number": 1 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.2, Page number 21" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 40; #length of iron rod(mm)\nE = 115*10**9; #Young's modulus(N/m**2)\nrho = 7.25*10**3; #density of pure iron(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-3; #natural frequency of the rod(kHz)\nnew=math.ceil(new*10**3)/10**3; #rounding off to 3 decimals\n\n#Result\nprint \"depth of the submerged submarine is\",new, \"kHz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "depth of the submerged submarine is 49.785 kHz\n" - } - ], - "prompt_number": 2 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.3, Page number 21" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 1; #length of quartz crystal(mm)\nE = 7.9*10**10; #Young's modulus(N/m**2)\nrho = 2650; #density(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-6; \nnew=math.ceil(new*10**2)/10**2; #rounding off to 2 decimals\n\n#Result\nprint \"fundamental frequency of crystal is\",new, \"*10**6 Hz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "fundamental frequency of crystal is 2.73 *10**6 Hz\n" - } - ], - "prompt_number": 3 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.4, Page number 22" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nd = 0.55; #distance between 2 constructive antinodes(mm)\nnew = 1.5; #frequency of crystal(MHz)\n \n#Calculation\nnew = new*10**6; #frequency of crystal(Hz)\nd = d*10**-3; #distance between 2 constructive antinodes(m)\n#distance between 2 antinodes is given by lamda/2\nlamda = 2*d; #wavelength of ultrasonic waves(m)\nv = new*lamda; #velocity of waves(m/s)\n\n#Result\nprint \"velocity of waves is\",int(v), \"m/s\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "velocity of waves is 1650 m/s\n" - } - ], - "prompt_number": 4 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.5, Page number 22" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 50; #length of rod(mm)\nE = 11.5*10**10; #Young's modulus(N/m**2)\nrho = 7250; #density(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-3; #natural frequency of the rod(kHz)\nnew = math.ceil(new*10**2)/10**2; #rounding off to 2 decimals\n\n#Result\nprint \"natural frequency of rod is\",new, \"kHz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "natural frequency of rod is 39.83 kHz\n" - } - ], - "prompt_number": 5 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.6, Page number 22" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 2; #length of crystal(mm)\nE = 7.9*10**10; #Young's modulus(N/m**2)\nrho = 2650; #density(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-6; #natural frequency of the rod(MHz)\nnew=math.ceil(new*10**3)/10**3; #rounding off to 3 decimals\n\n#Result\nprint \"frequency of crystal is\",new, \"MHz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "frequency of crystal is 1.365 MHz\n" - } - ], - "prompt_number": 6 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.7, Page number 23" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 3; #length of crystal(mm)\nE = 8*10**10; #Young's modulus(N/m**2)\nrho = 2500; #density(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-3; #natural frequency of the rod(kHz) \nnew=math.ceil(new*10**2)/10**2; #rounding off to 2 decimals\n\n#Result\nprint \"frequency of crystal is\",new, \"kHz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "frequency of crystal is 942.81 kHz\n" - } - ], - "prompt_number": 8 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.8, Page number 23" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 1.5; #length of crystal(mm)\nE = 7.9*10**10; #Young's modulus(N/m**2)\nrho = 2650; #density(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-6; #natural frequency of the rod(MHz) \nnew=math.ceil(new*10**2)/10**2; #rounding off to 2 decimals\n\n#Result\nprint \"frequency of crystal is\",new, \"MHz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "frequency of crystal is 1.82 MHz\n" - } - ], - "prompt_number": 10 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.9, Page number 24" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#Variable declaration\nv = 1440; #velocity of ultrasonic waves(m/s)\nt = 0.95; #time elapsed(s)\n\n#Calculation\nd = v*t; #distance travelled(m)\nd1 = d/2; #depth of sea(m)\n\n#Result\nprint \"depth of the submerged submarine is\",int(d1), \"m\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "depth of the submerged submarine is 684 m\n" - } - ], - "prompt_number": 11 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.10, Page number 24" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#Variable declaration\nv = 1440; #velocity of ultrasonic waves(m/s)\nt = 0.83; #time elapsed(s)\n\n#Calculation\nd = v*t; #distance travelled(m)\nd1 = d/2; #depth of submarine(m)\n\n#Result\nprint \"depth of the submerged submarine is\",d1, \"m\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "depth of the submerged submarine is 597.6 m\n" - } - ], - "prompt_number": 12 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.11, Page number 24" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\naS = 1050; #total absorption inside hall(Sabine)\nV = 9000; #volume of cinema hall(m**3)\n\n#Calculation\nT = 0.165*V/aS; #reverberation time of hall(s)\nT = math.ceil(T*10**4)/10**4; #rounding off to 4 decimals\n\n#Result\nprint \"reverberation time of the hall is\",T, \"s\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "reverberation time of the hall is 1.4143 s\n" - } - ], - "prompt_number": 13 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.12, Page number 25" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\na = 0.65; #average absorption coefficient(Sabine/m**2)\nV = 13500; #volume of auditorium(m**3)\nT = 1.2; #reverberation time of hall(s)\n\n#Calculation\nS = 0.165*V/(a*T); #reverberation time of hall(s)\nS = math.ceil(S*10)/10; #rounding off to 1 decimal\n\n#Result\nprint \"total area of interior surface is\",S, \"m**2\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "total area of interior surface is 2855.8 m**2\n" - } - ], - "prompt_number": 14 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.13, Page number 25" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nV = 15000; #volume of cinema hall(m**3)\nT1 = 1.3; #initial reverberation time of hall(s)\na1S1 = 300; #number of chairs placed\n\n#Calculation\naS = 0.165*V/T1; #total absorption of hall\nT2 = (0.165*V)/(aS+a1S1); #reverberation time of hall after adding chairs(s)\nT2 = math.ceil(T2*10**4)/10**4; #rounding off to 4 decimals\n\n#Result\nprint \"reverberation time of the hall after adding chairs is\",T2, \"s\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "reverberation time of the hall after adding chairs is 1.1231 s\n" - } - ], - "prompt_number": 15 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.14, Page number 26" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#Variable declaration\nv = 1440; #velocity of ultrasonic waves(m/s)\nt = 0.5; #time elapsed(s)\n\n#Calculation\nd = v*t; #distance travelled(m)\nd1 = d/2; #depth of submarine(m)\n\n#Result\nprint \"depth of the submerged submarine is\",int(d1), \"m\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "depth of the submerged submarine is 360 m\n" - } - ], - "prompt_number": 16 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.15, Page number 26" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nd = 0.4; #distance between 2 constructive antinodes(mm)\nnew = 1.5; #frequency of crystal(MHz)\n \n#Calculation\nnew = new*10**6; #frequency of crystal(Hz)\nd = d*10**-3; #distance between 2 constructive antinodes(m)\n#distance between 2 antinodes is given by lamda/2\nlamda = 2*d; #wavelength of ultrasonic waves(m)\nv = new*lamda; #velocity of waves(m/s)\n\n#Result\nprint \"velocity of waves is\",int(v), \"m/s\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "velocity of waves is 1200 m/s\n" - } - ], - "prompt_number": 17 - }, - { - "cell_type": "heading", - "level": 2, - "metadata": {}, - "source": "Example number 1.16, Page number 26" - }, - { - "cell_type": "code", - "collapsed": false, - "input": "#importing modules\nimport math\n\n#Variable declaration\nl = 40; #length of iron rod(mm)\nE = 11.5*10**10; #Young's modulus(N/m**2)\nrho = 7250; #density of pure iron(kg/m**3)\n\n#Calculation\nl = l*10**-3; #length of iron rod(m)\nnew = (1/(2*l))*math.sqrt(E/rho); #natural frequency of the rod(Hz)\nnew = new*10**-3; #natural frequency of the rod(kHz)\nnew=math.ceil(new*10**3)/10**3; #rounding off to 3 decimals\n\n#Result\nprint \"depth of the submerged submarine is\",new, \"kHz\"", - "language": "python", - "metadata": {}, - "outputs": [ - { - "output_type": "stream", - "stream": "stdout", - "text": "depth of the submerged submarine is 49.785 kHz\n" - } - ], - "prompt_number": 18 - } - ], - "metadata": {} - } - ] -}
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