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UPDATE `aff_pdf_cache` SET `cache` = 'a:10:{i:0;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"114587\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:4:\"loes\";s:9:\"author_id\";s:1:\"0\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:160:\"An Introduction to Partial Differential Equations with MATLAB (Chapman & Hall/Crc Applied Mathematics & Nonlinear Science) by Matthew P. Coleman\";s:11:\"description\";s:291:\"\n

- An Introduction to Partial Differential\nEquations with MATLAB (Chapman &\n Hall/Crc Applied Mathematics &\n Nonlinear Science) by Matthew P.\n Coleman\n\n\n\n\n Good And Clear\n\n\nAn Introduction to Partial Differential Equations with…\";s:5:\"thumb\";s:185:\"data/thumb/An-Introduction-to-Partial-Differential-Equations-with-MATLAB-Chapman-amp-HallCrc-Applied-Mathematics-amp-Nonlinear-Science-by-Matthew-P.-Coleman-Document-Transcript-6942.jpg\";s:6:\"thumb2\";s:186:\"data/thumb2/An-Introduction-to-Partial-Differential-Equations-with-MATLAB-Chapman-amp-HallCrc-Applied-Mathematics-amp-Nonlinear-Science-by-Matthew-P.-Coleman-Document-Transcript-6942.jpg\";s:9:\"permalink\";s:100:\"an-introduction-to-partial-differential-equations-with-matlab-chapman-amp-hall-crc-applied-mathemati\";s:5:\"pages\";s:1:\"2\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:1;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"142782\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:8:\"castsmtb\";s:9:\"author_id\";s:5:\"32117\";s:14:\"author_website\";s:39:\"http://solutionsmanualtest.blogspot.com\";s:5:\"title\";s:80:\"solution manual for Applied partial differential equations, 4/e richard haberman\";s:11:\"description\";s:416:\"solution manual for Applied partial differential equations, 4/e richard haberman I HAVE THE FOLLOWING SOLUTIONS MANUALS & TEST BANKS. YOU CAN CONTACT ME AT \nPDFSOLUTIONSTEST@HOTMAIL.COM \\ PDFSOLUTIONSTEST (AT) HOTMAIL.COM\nIF THE TITLE YOU ARE LOOKING FOR IS NOT LISTED, DO NOT HESITATE TO CONTACT ME, PLEASE SEND THE EMAIL WITH THE PUBLISHER AND ISBN TO ME ,THEN I CAN HELP U TO FIND IT.THANKS. \n\";s:5:\"thumb\";s:97:\"images/t/1428/solution-manual-for-applied-partial-differential-equations-4-e-richard-haberman.jpg\";s:6:\"thumb2\";s:98:\"images/t2/1428/solution-manual-for-applied-partial-differential-equations-4-e-richard-haberman.jpg\";s:9:\"permalink\";s:79:\"solution-manual-for-applied-partial-differential-equations-4-e-richard-haberman\";s:5:\"pages\";s:2:\"14\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:2;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"149289\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:7:\"fastggm\";s:9:\"author_id\";s:5:\"34210\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:76:\"Applied partial differential equations, 4/e richard haberman solution manual\";s:11:\"description\";s:385:\"Applied partial differential equations, 4/e richard haberman solution manual I have the following solutions manuals & test banks. You can contact me at fastggm@hotmail.com fastggm (at) hotmail.com\nif the title you are looking for is not listed, do not hesitate to contact me, please send the email with the publisher and isbn to me ,then i can help u to find it.thanks\n\";s:5:\"thumb\";s:95:\"images/t/1493/applied-partial-differential-equations-4-e-richard-haberman-solution-manual-1.jpg\";s:6:\"thumb2\";s:96:\"images/t2/1493/applied-partial-differential-equations-4-e-richard-haberman-solution-manual-1.jpg\";s:9:\"permalink\";s:77:\"applied-partial-differential-equations-4-e-richard-haberman-solution-manual-1\";s:5:\"pages\";s:3:\"110\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:3;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"184769\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:10:\"nishagoyal\";s:9:\"author_id\";s:5:\"54357\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:47:\"Qualitative Solutions To Differential Equations\";s:11:\"description\";s:2029:\"n differential equation we study the equations which are changed when their\nparameters changed or it is the study of anything that changes. From the study\nof differential, we learn that the derivative of a function nothing but is the rate of\nchange of the function in calculus.\nSo that any quantity likes velocity, temperature or volume that varies can be\ndescribed by an equation involving its derivative. To study differential equations\nthere are three main methods.\nThe first method is analytic methods, in this method the solution of any\ndifferential equation is obtained by using a mathematical formula. The second\none is numerical techniques, it provide an approximate solution for differential\nequation by using a computer or programmable calculator.\nKnow More About Laplace Transform\nAnd the third one is qualitative technique; in this technique we determining the\ngeneral properties of solution without knowing the exact behavior. It is very\ndifficult to find the analytical solutions to differential equations, often the\nbehavior of the equations can be examined from qualitative types of behavior of\nquantity. Now we are going to the main topic that is Qualitative Solutions to\nDifferential Equations.\nWe investigate the behavior of the differential equation by the given expression:\ndM/dt = r M(K-M)/K, The above equation provides the basic information of a\npopulation where, K is the carrying capacity. Now, we rewrite the equation by\nintroducing the new variable as follows, a=M/K, We use the method of\nseparation of variables which helps to understand the solutions that is, dy/ dt =\nra(1-a).\nThis method is long and more complex, which involve integration by partial\nfractions and a lots of algebraic manipulation to reach the form of the solution\nand also difficult to understand the behavior of a (t) and also the whole\npopulation M (t).\nThere are many cases in which no need to go through the elaborate the\nprocess if we want the appreciation solution of Qualitative behavior except the\nexact result or value.\n\";s:5:\"thumb\";s:65:\"images/t/1848/qualitative-solutions-to-differential-equations.jpg\";s:6:\"thumb2\";s:66:\"images/t2/1848/qualitative-solutions-to-differential-equations.jpg\";s:9:\"permalink\";s:47:\"qualitative-solutions-to-differential-equations\";s:5:\"pages\";s:1:\"4\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:4;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"246776\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:19:\"tutorvistateam_team\";s:9:\"author_id\";s:5:\"78231\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:22:\"Differential Equations\";s:11:\"description\";s:1021:\"Today I am going to tell you about a very interesting field of mathematics: differential\nequations. A differential equation is an equation for the functions which are unknown and are\nconsisting of one or more variables.\nThese variables generally relates the values of these unknown functions itself and its\nderivatives. These derivatives can be of various orders depending on the dependent and\nindependent variables of the given equation.\nDifferential Equations are used in various fields like physics, economics etc. These equations\nare used in real world applications. One of the examples is the determination of the velocity of\na box which is falling through the air and we can only consider the resistance of air and the\ngravity.\nNow the acceleration the falling box towards the plane or ground is the acceleration due to the\ngravity minus the deceleration due to air resistance.\nHere the gravitation is assumed to be constant and the air resistance can be modeled as\nproportional to the velocity of the falling box.\n\";s:5:\"thumb\";s:42:\"images/t/2468/differential-equations-4.jpg\";s:6:\"thumb2\";s:43:\"images/t2/2468/differential-equations-4.jpg\";s:9:\"permalink\";s:24:\"differential-equations-4\";s:5:\"pages\";s:1:\"4\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:5;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"562520\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:5:\"ijret\";s:9:\"author_id\";s:6:\"566473\";s:14:\"author_website\";s:16:\"http://ijret.org\";s:5:\"title\";s:175:\"IJRET - RESOURCE POTENTIAL APPRAISAL OR ASSESSMENT AND TO DELINEATE GROUNDWATER POTENTIAL ZONES IN PARTS OF ANAIMALAI, POLLACHI AND UDUMALPETBLOCK USING REMOTE SENSING AND GIS\";s:11:\"description\";s:2200:\"Remote sensing has its application in various fields like geology and mineral exploration, geomorphology and modern geomorphic\nprocess modeling, nature mitigation studies, hazard zone mapping, eco system study in hills, plains, riverine, coastal, marine and\nvolcanic landforms, forest and biomass inventory, fishery. Remote sensing plays a vital in various fields. This technique along with the\nGIS has been to study the geomorphological, hydro geological, land use/land cover, lithological, structural aspects/ features in the\nparts of Anaimalai, Pollachi and Udumalpet block of TamilNadu. Integrated approach using geographic information system provides\ncost effective support in resources inventory including land use mapping, comprehensive data base for resources, analytical tools for\ndecision making and impact analysis for plan evaluation. GIS accept large volumes of spatial data derived from a variety of sources\nand effectively store, retrieve, manipulate, analyze and display all forms of geographically referenced information. Maps and\nstatistical data can be obtained from the spatial integration and analysis of an area using GIS software. In order to assess the natural\nresource availability and its potentiality in parts of Anaimalai, Pollachi and Udumalpet block, Tamil Nadu, an integrated remote\nsensing and GIS based study has been conducted by adopting the standard procedures. The groundwater potential zone of any area is\ndepends on geological formations; geomorphologic unit’s recharges characters, topography, and thickness of weathered and\nfractured zones. In the present study, area was taken to locate groundwater potential zones by integrated different thematic maps,\nremote sensing and geographic information system techniques. To find out the ground water potential zones, different thematic maps\nhave been prepared and integrated each of them. They are mainly geology, geomorphology, land use / land cover, lineament etc.\nGroundwater potential zones have been prepared with help of integrating different thematic maps. This study area is finally to get the\ngroundwater potential zones we have to classified few area such as high, moderate and low potential zones.\";s:5:\"thumb\";s:118:\"images/t/5626/ijret-resource-potential-appraisal-or-assessment-and-to-delineate-groundwater-potential-zones-in-par.jpg\";s:6:\"thumb2\";s:119:\"images/t2/5626/ijret-resource-potential-appraisal-or-assessment-and-to-delineate-groundwater-potential-zones-in-par.jpg\";s:9:\"permalink\";s:100:\"ijret-resource-potential-appraisal-or-assessment-and-to-delineate-groundwater-potential-zones-in-par\";s:5:\"pages\";s:1:\"7\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:6;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"185451\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:10:\"nishagoyal\";s:9:\"author_id\";s:5:\"54357\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:49:\"Differential Equations and Mathematical Modelling\";s:11:\"description\";s:1659:\"Differential Equations and Mathematical Modelling\nA mathematical model for any system is the description of that system which\nuses the mathematical concepts related to the differential equation and some of\nthe languages.\nThis process of modeling is called as the mathematical modeling and when we\nuse differential equations and mathematical modelling together it is called as\nthe mathematical modeling of the differential equation.\nWe use the differential equations in the process of the modeling of the\nmathematics. To build the model we go through some of the process:\nStep 1: We clearly include the all assumptions for the model. These\nassumptions describe the relationship between the quantities used in modeling.\nKnow More About Exponential Growth and Decay\nStep 2: We describes all the parameters used in the model. Step 3: Now we\nuses all the assumptions to find the model which relates the parameters and\nvariables\nAntiderivatives\nAn antiderivative can be defined as an operation opposite to differentiation\noperation or we can say that to find antiderivative of a function we have to find\nthe integral of that function. Suppose we have a function.....\nIntegration using u-substitutions\nntegration by U substitution is a process used to simplify the integral\nexpressions. U substitution can only be applied to one type of integral, that is.-\n∫f(x)*d/dx(f(x)). We can apply this rule only .......\nExponential Growth and Decay\nExponential growth and decay are some of the real world problems and it\nincludes all those problems which increases or decreases exponential.\nGenerally the exponential growth of any mathematical function occ...Read More\n\";s:5:\"thumb\";s:67:\"images/t/1855/differential-equations-and-mathematical-modelling.jpg\";s:6:\"thumb2\";s:68:\"images/t2/1855/differential-equations-and-mathematical-modelling.jpg\";s:9:\"permalink\";s:49:\"differential-equations-and-mathematical-modelling\";s:5:\"pages\";s:1:\"3\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:7;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"186197\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:9:\"mysmandtb\";s:9:\"author_id\";s:1:\"0\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:102:\"Differential Equations and Linear Algebra, 3rd Edition, Stephen W. Goode, Scott A. Annin, PEARSON, ISM\";s:11:\"description\";s:680:\"Solution Manuals and Test Banks\nI have huge collection of solution manuals and test banks. I strive to provide you unbeatable prices with excellent support. \nSo, I assure you that you won’t be disappointed! I will gladly provide samples upon request, so don’t hesitate to contact me. \n \nTo get the solution manuals and test banks just contact with me. \nMy e-mail address is: mysmandtb@xxxxxxxxx, mysmandtb(at)gmail.com. Please replace (at) by @.If you need those, email to me. \nNote: All solution manuals and test banks are in soft copy means it’s in PDF format or doc format. \nI have around 4000+ solution manual. So please e-mail me. I am ready to help you\n\";s:5:\"thumb\";s:113:\"images/t/1862/differential-equations-and-linear-algebra-3rd-edition-stephen-w-goode-scott-a-annin-pearson-ism.jpg\";s:6:\"thumb2\";s:114:\"images/t2/1862/differential-equations-and-linear-algebra-3rd-edition-stephen-w-goode-scott-a-annin-pearson-ism.jpg\";s:9:\"permalink\";s:95:\"differential-equations-and-linear-algebra-3rd-edition-stephen-w-goode-scott-a-annin-pearson-ism\";s:5:\"pages\";s:1:\"9\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:8;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"343710\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:18:\"sougata chatterjee\";s:9:\"author_id\";s:1:\"0\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:154:\"National Work Shop On Application of Fractional Calculus in Engineering Physical Law and Solving Extra Ordinary Differential Equations of Fractional Order\";s:11:\"description\";s:331:\"A modern approach to Solve Extra Ordinary Differential Equations\nSeries reaction of several internal-modes generated to external perturbation.\nNo Laplace Transformation.\nNo discretization required.\nNo perturbation required.\nGives the solution as analytical (approximate)\nClose to physical reasoning of principal of action reaction.\";s:5:\"thumb\";s:118:\"images/t/3438/national-work-shop-on-application-of-fractional-calculus-in-engineering-physical-law-and-solving-ext.jpg\";s:6:\"thumb2\";s:119:\"images/t2/3438/national-work-shop-on-application-of-fractional-calculus-in-engineering-physical-law-and-solving-ext.jpg\";s:9:\"permalink\";s:100:\"national-work-shop-on-application-of-fractional-calculus-in-engineering-physical-law-and-solving-ext\";s:5:\"pages\";s:2:\"54\";s:6:\"rating\";s:1:\"0\";s:5:\"voter\";s:1:\"0\";}i:9;O:8:\"stdClass\":13:{s:2:\"id\";s:6:\"145421\";s:6:\"status\";s:8:\"verified\";s:11:\"author_name\";s:10:\"mahesh4528\";s:9:\"author_id\";s:5:\"29212\";s:14:\"author_website\";s:0:\"\";s:5:\"title\";s:22:\"Differential Equations\";s:11:\"description\";s:1564:\"Differential equation is a type of equation which contains derivatives in it. The derivative may de partial deerivative or a ordinary derivative.The eqution may contain derivative of any order.It the equation contain [dy/dx] then it is a differential equation of first order or first order differential equation,if the equation contain [(d^2y)/(dx^2)] then it is second order differential equation and so on for higher order differential equations.\nDifferential equations has wide range of application ,one of the famous application is in newtons 2nd law,it gives us the equation F=ma ,where a is the acceleration.Here a is rate of change of velocity with respect to time or second derivative of position.If v is the velocity then a= [(dv)/dt] or in terms of possition a= [(d^2u)/(dt^2)] ,where u is the position.In differential equations there are different methods to find the solution for the given differential equation. One of the methods to solve the differential equation is known as variable separable method. Now let us see few examples to solve differential equation using variable separable method.\nSolving Differential Equations\nBelow are the examples on solving differential equations using variable separable method.\nExample 1:\nSolve the following differential equation using variable separable method.\n[ dy/dx] = 3x + 7.\nSolution :\nGiven: [dy/dx] = 3x + 7\ndy = (5x + 7) dx\nHere, the variables are separated, so let’s integrate.\n[int] dy = [int] (3x + 7 ) dx\ny = 3 [((x^2)/(2))] + 7x + c.\nHere, c is the constant of integration.\";s:5:\"thumb\";s:40:\"images/t/1455/differential-equations.jpg\";s:6:\"thumb2\";s:41:\"images/t2/1455/differential-equations.jpg\";s:9:\"permalink\";s:22:\"differential-equations\";s:5:\"pages\";s:1:\"3\";s:6:\"rating\";s:1:\"5\";s:5:\"voter\";s:1:\"1\";}}', `cache_on` = '2015-02-28 07:27:03' WHERE `aff_id` = '1601896'