UNIVERSIDAD DE PUERTO RICO EN HUMACAO
www.uprh.edu

 

 DEPARTAMENTO DE FÍSICA Y ELECTRÓNICA
 
 
 

Methods of Theoretical Physics - Part 2,

Applied Mathematics, Mathematical Methods in Science and Engineering/Mathematical Techniques for Biology and Medicine - Part 2

with FORTRAN , MAXIMA , SAGE AND  MATLAB CODES

13 de julio  de 2011        e-mail: reibaretti2004@yahoo.com

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50. Chaos in the forced pendulum 

51. Atomic pseudo potential of a spherical shell

52 .Numerical Solution of Dirac's Equation

53. Numerical solutions in Cartesian coordinates of gravitational orbits  

54. Gravitational orbits with precession

55. Direct numerical calculation of Mercury relativistic precession

56. Numerical solutions of gravitational orbits in polar coordinates

57. Venus contribution to Mercury precession

58. Earth contribution to Mercury precession

59. Mars contribution to Mercury precession

60. Jupiter contribution to Mercury's precession

61. Saturn contribution to Mercury's precession

62. Simple estimate of Mercury's precession

63.  Gravitational potential due to a mass ring

64. Dirac delta function potential

65. Numerical solution to the Hartree –Fock approximation of the one-dimensional helium atom with modified delta function potentials

66. Solution of Laplace equation in a square grid -the H method

67. Solution of Laplace equation in two dimensions by iterations

68. Sturm- Liouville problem with mixed boundary conditions

69. Non Linear Integral Equations

70. The equation of Bratu

71. The Convolution as an Integral Equation Problem

72. Examples of the convolution theorem

73. Isothermal Gas Spheres

74. Applications of the Cayley - Hamilton theorem

75. The heat equation - Part 1

76. Oscillator response to the step , ramp or impulse function r(t)

77.Schaum's Basic Electrical Engineering - Example 17.3

78. Routh -Hurwitz criterion as a Differential Equation //Schaum's Basic Electrical Engineering -      Example 17.4

79. Friedmann Equation

80. Spherical pendulum

81. Rutherford Scattering  

82.  Scattering of protons by nuclei  

83. Screened Coulomb potential  

84. Gompertz Equation 

85. Logistic Curve

86. The Problem of Two Centers of Gravitation

87. Classical motion of an electron in an electric-dipole field

88. Non homogeneous Boundary Value Problem

89.  Laguerre equation

90. The Poynting-Robertson Effect  

91.  Quark Confinement - Part 1

92. Poisson Equation

93. Poisson Equation - Part 2

94. The Heat Equation - Part 2

95.  The Wave Equation 

96. White  Dwarf Star  Equation

97. Chandrasekhar H-equation

98. Chandrasekhar's X and Y Functions   

99.  Rocket Motion- Part 1

100. Rocket Motion- Part 2

101. Rocket Motion in two dimensions

102. The wave equation in two dimensions

See also    

 http://www1.uprh.edu/rbaretti/MethodsofTheoreticalPhysics.htm

 http://www1.uprh.edu/rbaretti/

 http://www1.uprh.edu/rbaretti/MethodsofTheoreticalPhysicsPart3.htm

 http://www1.uprh.edu/rbaretti/MethodsofTheoreticalPhysicsPart2.htm

http://www1.uprh.edu/rbaretti/MethodsofTheoreticalPhysicsPart4.htm

http://www1.uprh.edu/rbaretti/MethodsoftheoreticalphysicsPart5.htm

http://www1.uprh.edu/rbaretti/MethodsofTheoreticalPhysicsPart6.htm

http://www1.uprh.edu/rbaretti/MethodsofTheoreticalPhysicsPart7.htm