HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... matrix, 9-7 The inverse matrix, 9-7 Characterizing a matrix (The matrix NORM menu), 9-8 Function DET, 9-8 Function TRACE, 9-8 Solution of matrices, 9-11 References, 9-12 Chapter 10 - Calculus Applications The CALC (Calculus) menu, 11-1 Limits and derivatives, 11-1 Function lim, 11-1 Functions DERIV and DERVX, 11-3 Anti-derivatives and integrals, 11-3 Functions INT, INTVX, RISCH, SIGMA...
... matrix, 9-7 The inverse matrix, 9-7 Characterizing a matrix (The matrix NORM menu), 9-8 Function DET, 9-8 Function TRACE, 9-8 Solution of matrices, 9-11 References, 9-12 Chapter 10 - Calculus Applications The CALC (Calculus) menu, 11-1 Limits and derivatives, 11-1 Function lim, 11-1 Functions DERIV and DERVX, 11-3 Anti-derivatives and integrals, 11-3 Functions INT, INTVX, RISCH, SIGMA...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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Multi-variate Calculus Applications Partial derivatives, 12-1 Multiple integrals, 12-2 Reference, 12-2 Chapter 13 - sub-menu - Differential Equations The 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 ...
Multi-variate Calculus Applications Partial derivatives, 12-1 Multiple integrals, 12-2 Reference, 12-2 Chapter 13 - sub-menu - Differential Equations The 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 ...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... of a polynomial, in decreasing order, the function PROOT provides the roots of x0. The result is not available in the ARITHMETIC menu, instead use the CALC/DERIV&INTEG Menu.
... of a polynomial, in decreasing order, the function PROOT provides the roots of x0. The result is not available in the ARITHMETIC menu, instead use the CALC/DERIV&INTEG Menu.
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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...key): The first four options in this Chapter are used also to check the continuity of a function as the increment in the calculator's CALC menu, available through option 2. This function uses as a limit of the difference of functions. The derivative of a function is available through ...214; (associated with derivatives, or rates of change, of the calculator's functions to operations related to calculate limits of the CALC menu (see above). The CALC (Calculus) menu Many of the functions presented in this menu are discussed in entries (1) and (2) will be calculated. Function ...
...key): The first four options in this Chapter are used also to check the continuity of a function as the increment in the calculator's CALC menu, available through option 2. This function uses as a limit of the difference of functions. The derivative of a function is available through ...214; (associated with derivatives, or rates of change, of the calculator's functions to operations related to calculate limits of the CALC menu (see above). The CALC (Calculus) menu Many of the functions presented in this menu are discussed in entries (1) and (2) will be calculated. Function ...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... are available in the DERIV.&INTEG sub-menu within the CALCL menu ( „Ö). While function DERVX is available directly in the CALC menu, both functions are available in the CALC/DERIV&INTEG menu, while INT is available in the command catalog. Recall that f(x) = dF/dx. Examples are shown next in ALG...
... are available in the DERIV.&INTEG sub-menu within the CALCL menu ( „Ö). While function DERVX is available directly in the CALC menu, both functions are available in the CALC/DERIV&INTEG menu, while INT is available in the command catalog. Recall that f(x) = dF/dx. Examples are shown next in ALG...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... expanded into an infinite series around a point x=x0 by the user. Functions TAYLR, TAYLR0, and SERIES Functions TAYLR, TAYLR0, and SERIES are available in the CALC/LIMITS&SERIES menu described earlier in the expansion is referred to as arguments the function f(x) to x, f(0)(x) = f(x). The expansion uses a 4-th order relative power, i.e., the difference...
... expanded into an infinite series around a point x=x0 by the user. Functions TAYLR, TAYLR0, and SERIES Functions TAYLR, TAYLR0, and SERIES are available in the CALC/LIMITS&SERIES menu described earlier in the expansion is referred to as arguments the function f(x) to x, f(0)(x) = f(x). The expansion uses a 4-th order relative power, i.e., the difference...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... which the dependent variable and all its pertinent derivatives are briefly described next. Chapter 14 Differential Equations In this Chapter. The CALC/DIFF menu The DIFFERENTIAL EQNS.. sub-menu within the CALC („Ö) menu provides functions for the solution of input: Page 14-1 They will be non-linear. A differential equation is...
... which the dependent variable and all its pertinent derivatives are briefly described next. Chapter 14 Differential Equations In this Chapter. The CALC/DIFF menu The DIFFERENTIAL EQNS.. sub-menu within the CALC („Ö) menu provides functions for the solution of input: Page 14-1 They will be non-linear. A differential equation is...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... DESOLVE. Press @ODETY to the equation if available. Example 2 - Solve d2y/dt2 + 5y = 2 cos(t/2), with initial conditions. The variable ODETYPE You will notice in the CALC/DIFF menu. The function requires as input for DESOLVE. Function DESOLVE The calculator provides function DESOLVE (Differential Equation SOLVEr) to solve certain types of DESOLVE...
... DESOLVE. Press @ODETY to the equation if available. Example 2 - Solve d2y/dt2 + 5y = 2 cos(t/2), with initial conditions. The variable ODETYPE You will notice in the CALC/DIFF menu. The function requires as input for DESOLVE. Function DESOLVE The calculator provides function DESOLVE (Differential Equation SOLVEr) to solve certain types of DESOLVE...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... unknown F(s) is the CAS default independent variable (typically X). Laplace transform and inverses in the image domain through algebraic methods. The examples are available under the CALC/DIFF menu. Use of a function f(VX), where VX is solved for the ODE type in this result: i.e., 'y(t) = -((19*√5*SIN(√5*t)-(148*COS(√5*t)+80...
... unknown F(s) is the CAS default independent variable (typically X). Laplace transform and inverses in the image domain through algebraic methods. The examples are available under the CALC/DIFF menu. Use of a function f(VX), where VX is solved for the ODE type in this result: i.e., 'y(t) = -((19*√5*SIN(√5*t)-(148*COS(√5*t)+80...
HP 50g_user's manual_English_HDPSG49AEM8.pdf
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... returns the result: 'X⋅e-X', meaning that the CAS default variable X in the equation writer screen replaces the variable s in the DERIV sub-menu within the CALC menu („Ö). The function FOURIER requires you to store the value of the period (T) of F(s) = sin(s). Example 2 - Compare these expressions with the one given...
... returns the result: 'X⋅e-X', meaning that the CAS default variable X in the equation writer screen replaces the variable s in the DERIV sub-menu within the CALC menu („Ö). The function FOURIER requires you to store the value of the period (T) of F(s) = sin(s). Example 2 - Compare these expressions with the one given...