InquiCalc is a powerful and advanced graphing spftware designed to graph ellipses, hyperbolas, and other conic sections in implicit mode; additional modes support graphing polar and parametric functions, slope fields, inequalities, and scatterplots. In piecewise mode, you can plot piecewise-defined functions complete with open and closed endpoint symbols.
Up to six plots of any combination of modes may be included on one graph, and you can customize graphs with different colors, line styles, captions, and legends. You can save graphs in four different file formats or copy and paste them directly into other programs such as word processors. InquiCalc contains over 90 built-in functions, all of which are readily accessible from the function directory on the main screen.
These built-in functions include trigonometric, hyperbolic, and statistical functions. Also included are numerical integration and differentiation operations as well as functions to approximate zeroes and intersections of functions. Matrix operations, including row reduction, are supported, as are fractions and mixed numbers. InquiCalc’s input area contains a color-coded parentheses assistant to help reduce errors.
Other interface enhancements include user-defined buttons to reduce typing of often-used expressions and a streamlined procedure to find zeros and intersections. Results and expressions from prior calculations may be reused with one double-click. You may also print the InquiCalc output, making it easier for your instructor to help you if you have questions. Printed output may include not only the expressions you entered and their results, but also the graphs generated by InquiCalc and your own annotations

InquiCalc Serial Key is an analysis program designed to graph and analyze functions in implicit and piecewise modes.
The implicit or exact graphing mode is ideal for graphing the graph of a single function from a single set of initial conditions. This is the most precise and accurate mode.
For piecewise functions, you may define open or closed boundary conditions and then perform an initial analysis in one boundary condition. The next boundary condition defines the region over which a graph is generated, and this analysis will be complete automatically. InquiCalc For Windows 10 Crack may then graph the graph over all the boundary conditions that you defined, giving the opportunity to you to analyze any combination of open and closed boundaries.
The piecewise mode also includes two user-defined boundary conditions. You may define the graph of a function and its first derivative over a region with user-defined open or closed boundaries. An implicit solution is then generated. This is a powerful tool for graphing piecewise functions.
The following modes of graphing and analysis are included:
1. Equation: a graph of an implicit function, a graph of a differential equation, a graph of a parametric equation, a slope field plot, and the Polar Field Plot
2. Piecewise: a graph of a function and the derivative over a region with user-defined open and closed boundaries.
3. Parametric: the graph of a parametric function, slope field, the Polar Field Plot and the Parametric Graphing mode.
4. Scatter Plot: provides various scatter plot options, as well as the ability to create parametric and scatter-plot functions from underlying differential and algebraic equations.
5. Trigonometric: functions of the form where a, b, c, and s are real numbers, and t is a parameter.
6. Polar Field Plot: where a, b, and r are real numbers and theta is a parameter.
7. Inequalities: graphing inequalities such as x

InquiCalc is a graphing software package for students and hobbyists alike. The software combines ease of use, fast performance, and a complete set of graphing functions, to meet the needs of the greatest number of people, not just those in the mathematics community.
InquiCalc does not depend on a Linux environment, so it works on Windows, Mac and Linux.
InquiCalcGraph allows you to create single and multi-panel graphs, with captions and annotations for each panel. You can save any number of plots as bitmap images (for use on the web, as an icon) or EPS files (for use in dpi-aware applications such as Adobe Illustrator, for example). All graphing panels have individual colors and symbols, all of which are specified by the user, using whatever notation and conventions the user chooses. Any number of graphs may be plotted on a single graph, or placed into the same layout. The plots are linked by default, so you can scroll through all plots in a graph at once. You can export the entire plot either as a bitmap image, or an EPS file, for use in any dpi-aware application.
InquiCalc provides a powerful set of graphing functions, including the most advanced conic sections, polar coordinates, parametric equations, slope fields, polynomials, matrices, Bézier curves, implicit curves, and many more. The graphing editor allows you to easily locate and choose an algorithm for any of these functions. You can graph as many functions as you want on one graph using any number of plots and panels.
InquiCalcScript is the place where you choose what function you want to graph next. You can save these scripts in your inquic script directory for later use. The scripts you create are stored as text files, and may contain an arbitrary number of lines. Scripts may be edited in the script editor, and new functions may be added and existing functions may be changed. Whether you use the graphing routines or create your own scripts, in-place editing allows you to navigate to a value in any line of the script at any time, and edit the line with any text editor.
InquiCalcScript has many powerful features for its users. In addition to the various built-in functions, there are many third party functions that may be utilized. To use a third party function, click on the function directory, open the supplied.
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## InquiCalc

» Graphs of ellipses, hyperbolas, parabolas, and other conics.
» Graphing open and closed endpoints.
» Graphing polar, parametric, and polar-or-parametric functions.
» Graphing polar and parametric functions complete with gradient lines.
» Graphing slope and intercept fields.
» Graphing ellipse and hyperbola intercept field to explore the relationship between the two.
» Graphing ellipse and hyperbola intercept field for fixed values of the parameter.
» Graphing ellipse and hyperbola intercept field for fixed values of the parameter, including open and closed endpoints.
» Graphing ellipse and hyperbola intercept fields for a sequence of parameter values.
» Graphing ellipse and hyperbola intercept field with a step size of 10.
» Graphing any number of ellipses of given eccentricity (or eccentricities) and given center.
» Graphing a series of ellipses with a given center, varying from a-b to b-a in an X’Y’ setup.
» Graphing a series of ellipses with a given center, varying from a-b to b-a in an X’Y’ setup, with each ellipse having a different eccentricity.
» Graphing a series of ellipses with a given center, varying from a-b to b-a in an X’Y’ setup, with each ellipse having a different eccentricity.
» Graphing a series of ellipses with a given center and varying eccentricities, varying from a-b to b-a in an X’Y’ setup.
» Graphing a series of ellipses with a given center, varying from a-b to b-a in an X’Y’ setup, with each ellipse having a different eccentricity.
» Graphing a series of ellipses with a given center and varying eccentricities, varying from a-b to b-a in an X’Y’ setup.
» Graphing a series of ellipses with a given center and varying eccentricities, varying from a-b to b-a in an X’Y’ setup.
» Graphing a series of ell

## What’s New In InquiCalc?

Graphs the equation of an ellipse or other conic sections. Inpiecewise mode allows plotting of a function piecewisely defined on a sequence of intervals.
Build-in functions:
Ellipse, hyperbola, hyperbola-ellipse, parabola, parabola-ellipse, parabola-hyperbola, parabola-hyperbola-ellipse, line, line segment, line segment graph, sketch, shift, slant intercept, slope field, dip graph, contour of ellipse, and polar, polar coordinates.
User-defined functions:
arctan, arctan2, csc, tan, cot, exp, log, log10, arccos, and arccsc.
Composition of equations:
Expanded by user; build-in expressions do not expand to multiple functions.
Scalar functions on vectors (single number variable(s)):
Times a column vector by a row vector, and a row vector times a column vector. Matrix operations not yet implemented.
Matrix operations:
Row reduction, inverse, matrix determinant, and matrix trace.
Subtraction of matrices:
Subtraction of matrices is performed by first subtracting the first row of one matrix from the first row of another, then removing the common row.
Implementation:
Graphs the equation of an ellipse or other conic sections in piecewise mode.
Graph in a variety of modes:
Ellipse, hyperbola, hyperbola-ellipse, parabola, parabola-ellipse, parabola-hyperbola, parabola-hyperbola-ellipse, line, line segment, line segment graph, sketch, shift, slant intercept, slope field, dip graph, contour of ellipse, and polar, polar coordinates.
Graph in two or more modes:
Display the equation of an ellipse and a graph of another function, such as a graph of hyperbola. Note: A line segment graph may be displayed either with the equation of the ellipse, or with the equation of the hyperbola, depending on which mode is selected first.
Customize plots:
Graphing can be customized by setting colors, line types, the number of segments on graphs, and the number of graphs to be included on a graph.

## System Requirements:

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