Math Handbook Calculator

- Computer Algebra System of Fractional Calculus

programing







zoom graph by mouse wheel
To do
Button
Clear input
symbolic answer
JavaScript numeric answer
algebra 1st row
simplify `sin^((0.5))(x)`
expand `(x-1)^2`
factor `(x^2-1)`
convert sin(x) to exp(x)
convert asin(x) to log(x)
convert exp(x) to sin(x)
convert sin(x) to sinh(x)
convert 2-i to complex() comvert 2-i to complex(2,-1)
inverse( sin(x) )
calculus: default variable is x 2nd row
convert sin(x) to integral definition
differentiate `d/dx sin(x)`
integrate ∫ sin(x) dx
infinite integration `int_0^oo ( exp(-x) ) dx`
nth derivative formula `d^n/dx^n sin(x)`
semiderivative `d^(0.5)/dx^(0.5) sin(x)`
semiintegrate `d^(-0.5)/dx^(-0.5) sin(x)`
ODE solve ordinary differential equation for y,
ODE( y'-y-x^x=0),
PDE solve partial differential equation for y,
PDE( ds(y,t)-ds(y,x)=0),
test solution for equation and diff equation
discrete math: default index variable is k 3th row
convert sin(x) to series definition
Taylor series expansion taylor(sin(x))
series( sin(x) )
difference Δ`k^2`
Indefinite sum ∑ 1/k^6
partial sum `sum_(k=0)^n` k
partial sum `sum_(k=1)^n` k
infinite sum sum( x^k/k! as k->oo )
infinite sum `sum_(k=1)^oo x^k/k`
laplace laplace(x) transform laplace(x)
fsolve solve functional equation for f(x) f(x+1)-f(x)=x
rsolve solve recurrence equation for y(x) y(x+1)-y(x)=x
Numeric math 4th row
definition( sinh(x) )
limit lim( sin(x)/x as x->0 )
limoo lim( log(x)/x as x->oo )
numeric limit `lim _(x->0) sin(x)/x`
numeric integrate `int _0^1` sin(x) dx
numeric sum `sum _(x=1)^8` x
area area(sin(x))
numeric solve equation nsolve`( x^2-1=0 )`
solve equation for x, solve( exp(x)+exp(-x)=4 )
complex matrix calculator
numeric answer
Interactive Plot: zoom by mouse wheel 5th row
plot sin(x) and `x^2`
implicit plot `x^2+y^2=1 and x^2+y^2=4`
parametric plot parametricplot( x=sin(t) , y=cos(2*t) )
tangent plot tangentplot(sin(x))
secant plot secantplot(sin(x))
integral (sin(x))
polar plot polarplot(sin(4*x))
overlap plot sin(x)
Interactive Plot 2D: zoom by mouse wheel 6th row
plot2D (sin(x)) show diff and integral curves
taylor2D (sin(x))
diff2D (sin(x))
integrate2D (sin(x))
seimd2D (sin(x))
complex2D(sqrt(x)) show real and imaginary curves in real domain
ode plot graphically solve y'=sin(x)
Interactive Plot 3D: zoom by mouse wheel 7th row
plot3D(sin(x))
implicit3D(x*y*z-t)
section3D(x*y)
contour3D(x*y)
spin3D(sin(x))
complex3D(sqrt(x)) show complex function in complex domain
Interactive Plot 3D with parameters 8th row
surface3D(x*y)
plot3DIE in IE plot3DIE(sin(x))
parametric3D(t,t,t)
wireframe3D(x*y)
Show function graph. Input cos(x) , click the ? button

First line of buttons are for algebra to return function, second line of button are for calculus to return function, third line of buttions are for discrete math with default index variable k to return value, forth line of buttions are for numeric compution to return number. 5th and 6th line of buttions are to plot2D graph. 7th and 8th lines of buttion are to plot3D graph.

The same color buttons are a pair of inverse operators, its result can be checked each other if it returns origial function or not.

Rules:

put function arguments in parentheses: sin(x) -- correct, sin x -- incorrect; do not omit multiplication: x*sin(x) -- correct, x sin(x) -- incorrect. x**y or pow(x,y) for power. Usual keywords are lowercase, which are different from uppercase, e.g. sin is different from Sin. Its default variable is small letter x, but its default index variable in discrete math is k.

How to use?

see help

Example:

  • Add new function f(x) = `x^2`; call f(2)
    f(x) = x^2; f(2)

  • Add new rule of derivative `d/dx` f(x_) := sin(x)
    d(f(x_), x_) := sin(x);

  • Add new rule of integral `int` f(x) dx := F(x)
    integrate(f(x_), x_) := cos(x);

  • algebra: convert.
  • calculus: limit, nth derivative, differentiation, integral, fractional calculus, convert to integral.
  • equation: Inequalities, congruence equation, Dorphine equation, modulus equation, recurrence equation, (fractional) differential equation, (fractional) integral equation, by solve(), dsolve(), lasolve(), rsolve().
  • discrete math: sum, partial sum, indefinite sum, infinite sum, convert to sum.
  • interactive plot zoom by mouse wheel: polar plot, parametric plot, implicit plot, tangent plot, secant plot, plot, plot2D, plot3D, parametric3D, parametric3Dxy, implicit3D, complex3D, spin3D
  • animation:

    Please read its example and manual of symbolic computation Computer Algebra System.

    MathHandbook

    What is mathHandbook?

    the Math Handbook Calculator has the function of machine learning. It is unique in the world to solve the function of any order (such as 0.5 order) differential equations. Enter mathematical formulas on the Mathematics Handbook website, click continuously to calculate calculus, solve equations, give analytical solutions and numerical solutions and diagrams, interactively zoom in the drawing, and zoom in with the mouse wheel. You can use it on your mobile phone to learn computing and development anytime, anywhere.

    http://mathhand.com

    It has three versions:

    1. Phone version: run on any phone online. It does not requires to download anything.
    2. Java version: Java Applet run on any computer that support Java online and off-line. Please contact us if you want it.

    3. PC version: DOS version run on PC. Its old name is SymbMath, you can download it.
    MathHandbook - Computer Algebra System symbolic computation.
    1. Brief
    2. manual
    3. mathHandbook.doc
    4. Developer document
    5. Functions
    6. Examples

    SymbMath - PC DOS version of symbolic computation Computer Algebra System.

    1. table of content
    2. brief
    3. manual
    4. SymbMath.doc
    5. Lists of Review
    6. Review
    7. download

    Question?

  • bugs post to QQ group 614057790 or forum.