<> "The repository administrator has not yet configured an RDF license."^^ . <> . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0"^^ . "Persamaan diferensial parsial adalah persamaan diferensial yang memuat lebih\r\ndari satu turunan parsial. Kemudian metode yang akan digunakan dalam\r\npenelitian ini adalah Metode Analisis Homotopi (HAM). Berdasarkan\r\nkeunggulan Metode Analisis Homotopi (HAM) adalah metode yang bebas,\r\nartinya tidak memperhatikan kecil dan besarnya suatu parameter. Adapun\r\npembahasan dalam penelitian ini akan membuktian bahwa suatu persamaan nilai\r\nawalnya akan terbukti dengan menyelesaikan syarat awal menggunakan Metode\r\nAnalisis Homotopi (HAM) untuk menentukan solusi persamaan deformasi\r\nm=1,2,3,4 dan 5 yang akan terbentuk ke dalam deret Taylor dan mendapatkan\r\nsolusi akhirnya.\r\nKata kunci: Metode Analisis Homotpi, Persamaan Diferensial Parsial,\r\nDeret Taylor\r\n\r\n\r\nABSTRACT\r\n\r\nPartial differential Equation is a differential equation that contain more than one\r\npartial derivative. Then the method used on this reaserch is Homotopy Analysis\r\nMethods (HAM). Based on the supriority of Homotopy Analysis Methods\r\n(HAM) is an independent method, which means that the methods doesn’t consider\r\nthe small and bigger of the value of the parameter. In this reaserch is going to\r\nprove that an equation of initial value is going to proved by solving the initial\r\ncondition by using Homotopy Analysis Methods (HAM). To determine the\r\nsolution of deformation equation with m=1,2,3,4 and 5, will be formed into Taylor\r\nSeries and get the final solution.\r\nKeywords: Homotopy Analysis Method, Partial Differential Equation,\r\nTaylor Series"^^ . "2017-12-20" . . . . . "FAKULTAS MATEMATIKA DAN ILMU PENGETAHUAN ALAM"^^ . . . . . . . " 1417031107"^^ . " SHELVI RUKMANA AS"^^ . " 1417031107 SHELVI RUKMANA AS"^^ . . . . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (File PDF)"^^ . . . "ABSTRAK.pdf"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (File PDF)"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (File PDF)"^^ . . . "SKRIPSI TANPA BAB PEMBAHASAN.pdf"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "preview.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "medium.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "small.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "indexcodes.txt"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "indexcodes.txt"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "lightbox.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "preview.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "medium.jpg"^^ . . . "APPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS\r\nPARTIAL DIFERENTIAL EQUATION SYSTEM\r\nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0 (Other)"^^ . . . . . . "small.jpg"^^ . . "HTML Summary of #29720 \n\nAPPLICATION OF ANALYSIS METHODS (HAM) TO HOMOGENEOUS \nPARTIAL DIFERENTIAL EQUATION SYSTEM \nUt+Vx − (U + V ) = AND Vt+ Ux− (U + V ) = 0\n\n" . "text/html" . . . "QA Mathematics"@en . .