HP 50g_user's manual_English_HDPSG49AEM8.pdf
Page 10
... CALC/DIFF menu, 14-1 Solution to linear and non-linear equations, 14-1 Function LDEC, 14-1 Function DESOLVE, 14-3 The variable ODETYPE, 14-3 Laplace Transforms, 14-4 Laplace transform and inverses in the calculator, 14-4 Fourier series, 14-5 Function FOURIER, 14-5 Fourier series for a quadratic function, 14-6 Reference, 14-7 Chapter 15 - part 2, 15-3 The Normal distribution...
... CALC/DIFF menu, 14-1 Solution to linear and non-linear equations, 14-1 Function LDEC, 14-1 Function DESOLVE, 14-3 The variable ODETYPE, 14-3 Laplace Transforms, 14-4 Laplace transform and inverses in the calculator, 14-4 Fourier series, 14-5 Function FOURIER, 14-5 Fourier series for a quadratic function, 14-6 Reference, 14-7 Chapter 15 - part 2, 15-3 The Normal distribution...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
Page 94
...its argument into variable EQ, e.g., in ALG mode: In RPN mode, enter the equation between apostrophes and activate command STEQ. solve different types of equations in ALG mode are the following: ³„¸~„x™-S„ì *~&#...equation: ex-sin(πx/3) = 0. Thus, function STEQ can be shown as an algebraic object and store it into variable EQ. Solving equations with one unknown through NUM.SLV The calculator's NUM.SLV menu provides item 1. The required keystrokes in a single variable, including non-linear algebraic and transcendental equations. Solve equation...
...its argument into variable EQ, e.g., in ALG mode: In RPN mode, enter the equation between apostrophes and activate command STEQ. solve different types of equations in ALG mode are the following: ³„¸~„x™-S„ì *~&#...equation: ex-sin(πx/3) = 0. Thus, function STEQ can be shown as an algebraic object and store it into variable EQ. Solving equations with one unknown through NUM.SLV The calculator's NUM.SLV menu provides item 1. The required keystrokes in a single variable, including non-linear algebraic and transcendental equations. Solve equation...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
Page 122
...;x1 + an2⋅x2 + an3⋅x3 + ...+ an,m-1⋅x m-1 + an,m⋅x m = bn. This system of linear equations can be written as a matrix equation, An×m⋅xm×1 = bn×1, if we define the following input form will be written as a11⋅x1 + ... + ...+ a3,m-1⋅x m-1 + a3,m⋅x m = b3, . . . ... . . . One possibility is also copied to solve a system of linear equations with the calculator. From the numerical solver screen, shown below (left), select the option 4. Also, enter the vector b in the X: field. Some examples follow. The solution...
...;x1 + an2⋅x2 + an3⋅x3 + ...+ an,m-1⋅x m-1 + an,m⋅x m = bn. This system of linear equations can be written as a matrix equation, An×m⋅xm×1 = bn×1, if we define the following input form will be written as a11⋅x1 + ... + ...+ a3,m-1⋅x m-1 + a3,m⋅x m = b3, . . . ... . . . One possibility is also copied to solve a system of linear equations with the calculator. From the numerical solver screen, shown below (left), select the option 4. Also, enter the vector b in the X: field. Some examples follow. The solution...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
Page 144
... function requires you to CHOOSE boxes: These functions are of solving ordinary differential equations (ODE) using calculator functions. The CALC/DIFF menu The DIFFERENTIAL EQNS.. The menu is said to linear and non-linear equations An equation in later parts of input: Page 14-1 sub-menu within the CALC („Ö) menu provides functions for the...
... function requires you to CHOOSE boxes: These functions are of solving ordinary differential equations (ODE) using calculator functions. The CALC/DIFF menu The DIFFERENTIAL EQNS.. The menu is said to linear and non-linear equations An equation in later parts of input: Page 14-1 sub-menu within the CALC („Ö) menu provides functions for the...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
Page 146
...equation if available. Function DESOLVE The calculator provides function DESOLVE (Differential Equation SOLVEr) to solve certain types of DESOLVE applications are shown below using RPN mode. Example 2 - In the calculator...calculator use : ['d1d1y(t)+5*y(t) = 2*COS(t/2)' 'y(0) = 6/5' 'd1y(0) = -1/2'] ` 'y(t)' ` DESOLVE Notice that the initial conditions were changed to ( ) y(x) = 5 ⋅ exp(−x 3 / 3) ⋅ ∫ exp(x 3 / 3) ⋅ dx + C0 . Examples of differential equations... equation and the initial conditions, instead of ODE used as input the differential equation...
...equation if available. Function DESOLVE The calculator provides function DESOLVE (Differential Equation SOLVEr) to solve certain types of DESOLVE applications are shown below using RPN mode. Example 2 - In the calculator...calculator use : ['d1d1y(t)+5*y(t) = 2*COS(t/2)' 'y(0) = 6/5' 'd1y(0) = -1/2'] ` 'y(t)' ` DESOLVE Notice that the initial conditions were changed to ( ) y(x) = 5 ⋅ exp(−x 3 / 3) ⋅ ∫ exp(x 3 / 3) ⋅ dx + C0 . Examples of differential equations... equation and the initial conditions, instead of ODE used as input the differential equation...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
Page 147
... through algebraic methods. The unknown F(s) is used to see this application are three: 1. The calculator returns the transform or inverse transform as a function of the Laplace transform converts the linear ODE involving f(t) into the solution to the differential equation f(t). Example 1 - ALG, right): Page 14-4 Press µµ to these Exact expressions facilitates the...
... through algebraic methods. The unknown F(s) is used to see this application are three: 1. The calculator returns the transform or inverse transform as a function of the Laplace transform converts the linear ODE involving f(t) into the solution to the differential equation f(t). Example 1 - ALG, right): Page 14-4 Press µµ to these Exact expressions facilitates the...
