Module: MathTrigonometry in Category General VBA/VB6 : Math from Total Visual SourceBook
Trigonometry functions for working with values such as cosines, tangents and secants in VBA and VB6.
| Procedure Name | Type | Description |
| (Declarations) | Declarations | Declarations and private variables for the modMathTrigonometry module. |
| ArcCoSecant | Procedure | Get the inverse cosecant of the supplied number. |
| ArcCosine | Procedure | Get the arc cosine of the supplied radians. |
| ArcCoTangent | Procedure | Get the inverse cotangent of the supplied number. |
| ArcSecant | Procedure | Get the inverse secant of the supplied number. |
| ArcSine | Procedure | Get the inverse sine of the supplied number. |
| ArcTangent | Procedure | Get the inverse tangent of the supplied numbers. Note that passing zero for both parameters returns a Null value, and causes an "Invalid Use of Null" error. |
| Cosecant | Procedure | Get the cosecant of the supplied radians. Note that sin(Radians) cannot equal zero. This can happen if dblRadians is a multiple of PI. In this case, the function returns a Null value, and causes an "Invalid Use of Null" error. |
| Cotangent | Procedure | Get the cotangent of the supplied radians. The function is undefined if input value is a multiple of PI. |
| HyperbolicArcCosecant | Procedure | Get the Inverse Hyperbolic Cosecant of the supplied number. |
| HyperbolicArcCosine | Procedure | Get the Inverse Hyperbolic Cosine of the supplied number. |
| HyperbolicArcCotangent | Procedure | Get the Inverse Hyperbolic Tangent of the supplied number. Undefined if dblIn is 1. |
| HyperbolicArcSecant | Procedure | Get the Inverse Hyperbolic Secant of the supplied number. |
| HyperbolicArcSine | Procedure | Get the Inverse Hyperbolic Sine of the supplied number. |
| HyperbolicArctan | Procedure | Get the Inverse Hyperbolic Tangent of the supplied number. The return value is undefined if input value is 1. |
| HyperbolicCosecant | Procedure | Get the Hyperbolic Cosecant of the supplied number. |
| HyperbolicCosine | Procedure | Get the Hyperbolic Cosine of the supplied number. |
| HyperbolicCotangent | Procedure | Get the Hyperbolic CoTangent of the supplied number. |
| HyperbolicSecant | Procedure | Get the Hyperbolic Secant of the supplied number. |
| HyperbolicSine | Procedure | Get the Hyperbolic Sine of the supplied number. |
| HyperbolicTangent | Procedure | Get the Hyperbolic Tangent of the supplied number. |
| Log10 | Procedure | Get log base 10. The power 10 must be raised to equal a given number. Log Base 10 is defined as this: x = log(y) where y = 10 ^ x |
| Log2 | Procedure | Get log base 2. The power 2 must be raised to equal a given number. Log base 2 is defined as this: x = log(y) where y = 2 ^ x |
| LogN | Procedure | Get log base N. The power N must be raised to equal a given number. Log base N is defined as this: x = log(y) where y = N ^ x |
| Secant | Procedure | Get the secant of the supplied radians. |
' Example of modMathTrigonometry ' ' To use this example, create a new module and paste this code into it. ' Then run the procedure by putting the cursor in the procedure and pressing: ' F5 to run it, or ' F8 to step through it line-by-line (see the Debug menu for more options) Private Sub Example_modMathTrigonometry() ' Comments: Example of using the modMathTrigonometry module to calculate Trigonometry functions in VBA and VB6. ' See the results in the Immediate Window. Dim dbl1 As Double Dim dbl2 As Double Dim n As Integer dbl1 = 4.012 dbl2 = 5.034 Debug.Print "ArcCoSecant(): with input of " & dbl1 & " returned " & ArcCoSecant(dbl1) dbl1 = 0.0000943 Debug.Print "ArcCosine(): with input of " & dbl1 & " returned " & ArcCosine(dbl1) Debug.Print "ArcCotangent(): with input of " & dbl1 & " returned " & ArcCoTangent(dbl1) dbl1 = 4.012 Debug.Print "ArcSecant(): with input of " & dbl1 & " returned " & ArcSecant(dbl1) dbl1 = 0.0000943 Debug.Print "ArcSine(): with input of " & dbl1 & " returned " & ArcSine(dbl1) Debug.Print "ArcTangent(): with input of " & dbl1 & " returned " & ArcTangent(dbl1, dbl2) Debug.Print "CoSecant(): with input of " & dbl1 & " returned " & Cosecant(dbl1) Debug.Print "CoTangent(): with input of " & dbl1 & " returned " & Cotangent(dbl1) Debug.Print "HyperbolicArcCosecant(): with input of " & dbl1 & " returned " & HyperbolicArcCosecant(dbl1) dbl1 = 4.012 Debug.Print "HyperbolicArcCosine(): with input of " & dbl1 & " returned " & HyperbolicArcCosine(dbl1) Debug.Print "HyperbolicArcCotangent(): with input of " & dbl1 & " returned " & HyperbolicArcCotangent(dbl1) dbl1 = 0.0000943 Debug.Print "HyperbolicArcSecant(): with input of " & dbl1 & " returned " & HyperbolicArcSecant(dbl1) Debug.Print "HyperbolicArcSine(): with input of " & dbl1 & " returned " & HyperbolicArcSine(dbl1) Debug.Print "HyperbolicArctan(): with input of " & dbl1 & " returned " & HyperbolicArctan(dbl1) Debug.Print "HyperbolicCosecant(): with input of " & dbl1 & " returned " & HyperbolicCosecant(dbl1) Debug.Print "HyperbolicCosine(): with input of " & dbl1 & " returned " & HyperbolicCosine(dbl1) Debug.Print "HyperbolicCotangent(): with input of " & dbl1 & " returned " & HyperbolicCotangent(dbl1) Debug.Print "HyperbolicSecant(): with input of " & dbl1 & " returned " & HyperbolicSecant(dbl1) Debug.Print "HyperbolicSine(): with input of " & dbl1 & " returned " & HyperbolicSine(dbl1) Debug.Print "HyperbolicTangent(): with input of " & dbl1 & " returned " & HyperbolicTangent(dbl1) Debug.Print "Secant(): with input of " & dbl1 & " returned " & Secant(dbl1) Debug.Print ' Displays to the immediate window log values. ' Every unit increase represents a power of 10. Debug.Print "Log Base 10 of 1 is " & Log10(1) Debug.Print "Log Base 10 of 10 is " & Log10(10) Debug.Print "Log Base 10 of 100 is " & Log10(100) Debug.Print "Log Base 10 of 5 is " & Log10(5) Debug.Print "2 ^ " & Log10(5) & " = 5" Debug.Print ' Displays to the immediate window log values. ' Every unit increase represents a power of 2. Debug.Print "Log Base 2 of 1 is " & Log2(1) Debug.Print "Log Base 2 of 2 is " & Log2(2) Debug.Print "Log Base 2 of 4 is " & Log2(4) Debug.Print "Log Base 2 of 5 is " & Log2(5) Debug.Print "2 ^ " & Log2(5) & " = 5" Debug.Print ' Displays to the immediate window log values. ' Every unit increase represents a power of 10. For n = 2 To 10 Debug.Print "Log Base " & n & " of 10 is " & LogN(10, n) Next n End Sub
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