User Manual
Page 1
TI-36X Pro Calculator Important information 2 Examples 3 Switching the calculator on and off 3 Display contrast 3 Home screen 3 2nd functions 5 Modes 5 Multi-tap keys 8 Menus 8 Scrolling expressions and history 9 ... inverses 17 Pi 18 Math 19 Number functions 20 Angles 21 Rectangular to polar 23 Trigonometry 24 Hyperbolics 26 Logarithm and exponential functions 27 Numeric derivative 27 Numeric integral 29 Stored operations 30 Memory and stored variables 31 Data editor and list formulas 34 1
TI-36X Pro Calculator Important information 2 Examples 3 Switching the calculator on and off 3 Display contrast 3 Home screen 3 2nd functions 5 Modes 5 Multi-tap keys 8 Menus 8 Scrolling expressions and history 9 ... inverses 17 Pi 18 Math 19 Number functions 20 Angles 21 Rectangular to polar 23 Trigonometry 24 Hyperbolics 26 Logarithm and exponential functions 27 Numeric derivative 27 Numeric integral 29 Stored operations 30 Memory and stored variables 31 Data editor and list formulas 34 1
User Manual
Page 27
.... C C raises 10 to the power you specify. D D yields the common logarithm of a number to calculate the derivative and H (if not specified, the default is valid only for real numbers. 27 C .5 < Numeric derivative %A % A calculates an approximate derivative of expression with respect to variable, given the value at which to the base e (e ≈ 2.718281828459). C CD...
.... C C raises 10 to the power you specify. D D yields the common logarithm of a number to calculate the derivative and H (if not specified, the default is valid only for real numbers. 27 C .5 < Numeric derivative %A % A calculates an approximate derivative of expression with respect to variable, given the value at which to the base e (e ≈ 2.718281828459). C CD...
User Manual
Page 28
... calculator can use nDeriv( once in Classic mode Classic: nDeriv(expression,variable,value[,H]) %A %A z F T 5 z %`z %`M1 ) < nDeriv( uses the symmetric difference quotient method, which approximates the numerical derivative value as the slope of the tangent line to change H for investigations. Example in MathPrint™ mode %A %A z F T 5 z "" M 1 < Example in expression. You can return a false...
... calculator can use nDeriv( once in Classic mode Classic: nDeriv(expression,variable,value[,H]) %A %A z F T 5 z %`z %`M1 ) < nDeriv( uses the symmetric difference quotient method, which approximates the numerical derivative value as the slope of the tangent line to change H for investigations. Example in MathPrint™ mode %A %A z F T 5 z "" M 1 < Example in expression. You can return a false...