Casio FXCP400 Manual De Usuario

Chapter 5: Differential Equation Graph Application

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• Toggle the use of unit vectors on or off for slope field or phase 

plane graphing ............................................................................................................... Edit - Unit Vectors

• Display the Differential Equation Editor window [DiffEq] tab ........................Edit - Editor - DiffEqGraph Editor

• Display the Differential Equation Editor window [IC] tab .............................................. Edit - Editor - IC Editor

• Display the Differential Equation Editor window [Graphs] tab ............................... Edit - Editor - Graph Editor

• Clear all currently registered initial conditions 

(and, as a result, all solution curves) ................................................................................... Edit - Clear All

• Pan the graph window ....................................................................................................Analysis - Pan or T

• Select and move the initial condition point .................................................................. Analysis - Select or 

G

• Register the coordinates at the location you tap on the Differential 

Equation Graph window as the initial condition, and graph the 
solution curve based on that initial condition ........................................................ Analysis - Modify or 

J

• Make the Differential Equation Editor window active ..................................................................................

A

• Display the View Window dialog box to configure Differential Equation 

Graph window settings...........................................................................................................................6

• Display a trace cursor that can be positioned on any 

, 

 coordinate .........................................................

K

• Display a trace cursor that can be positioned on any grid point that has a field line ..................................

L

• Display a trace cursor that can be positioned on any solution curve or 

general graph ..........................................................................................................Analysis - Trace or =

• Turn display of axes and coordinate values on or off .................................................................................

q

You can use the Differential Equation Graph application to graph a first order, a second order, or an 

th-order 

differential equation.

This section explains how to input a first order differential equation, draw a slope field, and graph the solution 
curve(s).

• A slope field is the family of solutions of a single, first order differential equation of the form 

’= 

 (

, 

). It is a 

grid of solution lines where each line has the slope 

’ for a given grid value of 

 and 

. It is often referred to 

as a “slope field” or “direction field” because only the direction of the field at any given point in known, not the 
magnitude.

• You can overlay, onto the slope field, solution curves of the first order differential equation input for given 

initial conditions on the [DiffEq] tab. 

u  To input a first order differential equation and draw a slope field

 To 

input 

’ = 

2

 − 

 and draw its slope field

u To input initial conditions and graph the solution curves

  After performing the operation under example 

, to graph three solution curves for the initial 

conditions (

, 

) = (0, 0), (0, 0.5), (0, 1) 

  You can specify whether or not a solution curve should be drawn for each initial condition input on the initial 

condition editor. Use the initial condition editor to select the check box to the left of each initial condition input box 
(Initial Condition 1, Initial Condition 2, etc.) whose solution curve you want to graph. The solution curve of any initial 
condition whose check box is not selected will not be graphed.