About the Polar Function Grapher
Our polar function grapher enables users to visualize the construction of polar graphs of functions by animation. This unique animation method clearly shows how polar graphs of functions are drawn automatically and progressively—from start to finish—in the polar coordinate system.
Additionally, with its unique ability to show the rotating radial axes (the axes used in polar graphing, obtained by rotating the polar axis), this polar function grapher helps you understand how polar graphs of functions are drawn through engaging animation.
Comprehensive Function Visualization
This grapher plots function in both Cartesian and polar coordinate systems. To demonstrate how the same function is graphed in the Cartesian coordinate system, this function graphing calculator accomplishes this in a unique way and with remarkable ease: simply by switching coordinate systems—by deselecting the Polar checkbox. This mathematically sound approach allows users to visualize and compare the polar and Cartesian graphs of a given function.
Moreover, this versatile and oblique function grapher enables users to rotate axes and graph functions in oblique coordinate systems, providing a powerful all-in-one visualization tool.
Try our Graphing Calculator, which in addition to graphing functions can graph parametric equations, equations containing variables on both sides, including implicit functions, and points.
Lines
1 x+1 2xSemi-circles
√(9-x^2) -√(9-x^2)Semi-ellipses
√(9-x^2/3) √(9-x^2/3)Parabolas
x^2 0.5x^2-4x+1 -(0.5x^2-4x+1)Semi-hyperbolas
√(x^2-4) -√(x^2-4)Other graphs
√(4sin(2x)) √(4cos(2x))Lines
2csc(θ) 2sec(θ) 1/(sin(θ) - cos(θ))Circles
1 2 6sin(θ) 8cos(θ)Spirals
θ θ/5 dom=(0, 10π) √(θ) dom=(0, 10π) 1/θ dom=(0, 10π)Roses
4sin(3θ) 4sin(2θ) 4sin(5θ) 4sin(4θ)Ellipses
1/(1-.8cos(θ)) 1/(1-.8sin(θ)) 1/(1+.8cos(θ)) 1/(1+.8sin(θ))Parabolas
1/(1-sin(θ)) 1/(1+cos(θ)) 1/(1+sin(θ)) 1/(1-cos(θ))Hyperbolas
1/(1+2cos(θ)) 4/(1+2sin(θ)) 1/(1-2cos(θ)) 4/(1-2sin(θ))Cardioids
3+3cos(θ) 2+2sin(θ) 3-3cos(θ) 2-2sin(θ)Limacons
2+3cos(θ) 1+2sin(θ) 2-3cos(θ) 1-2sin(θ)Lemniscates
√(4sin(2θ)) √(4cos(2θ))Butterfly curve
e^sin(θ)-2cos(4θ)+sin((2θ-π)/24)^5 dom=(0, 12π)Calculator is loading.
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To copy or save graphs right click on the image of a saved graph below and select "Copy image" or "Save image" from the pop-up menu.
Instructions for Using the function grapher
Tips - as you type:
- ..t is replaced by θ. (You can also use x or t; they are internally replaced by θ).
- pi is replaced by π.
- inf (infinity) is replaced by ∞.
MouseMatics: Find out how to use your mouse to rotate axes, change scales, and translate coordinate systems.