Category:Calculus
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Calculus is the mathematical theory of functions in one variable. Here we collect media which describe the main properties in the theory. For special functions, see the subcategory category:functions. For functions in more than one variable, see category:multivariate calculus. For the complex case see category:complex analysis. Please put your images in an appropriate subcategory.
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Soto-categorie
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File in te ła categoria "Calculus"
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A parametric curve with a tangent and a normal 01.png 640 × 384; 17 KB
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A parametric curve with a tangent and a normal 02.png 640 × 384; 32 KB
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A parametric curve with a tangent and a normal 03.png 640 × 384; 23 KB
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A parametric curve with a tangent and a normal 04.png 640 × 384; 26 KB
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A parametric curve with a tangent and a normal 05.png 640 × 384; 32 KB
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AndragradsEkva.svg 336 × 414; 14 KB
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Bounded and unbounded functions.svg 329 × 317; 16 KB
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C05b The arc length of the graph of f.png 640 × 384; 20 KB
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C05c The arc length of the graph of f.png 640 × 384; 14 KB
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C05d The arc length of the graph of f.png 640 × 384; 14 KB
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Calculer la courbure pour une fonction cos(x).png 640 × 384; 23 KB
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Calculer la courbure pour une fonction exp(x**2) 01.png 640 × 384; 20 KB
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Calculer la courbure pour une fonction log(x-1).png 640 × 384; 21 KB
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Calculer la courbure pour une fonction paramétrique 2d 01.png 640 × 384; 24 KB
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Calculul unei integrale duble 098uygvbn.png 670 × 493; 24 KB
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Calespe.png 327 × 110; 8 KB
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Calmargi.png 396 × 124; 11 KB
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Causal function with gnuplot and C language.png 640 × 384; 19 KB
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Circulacion.png 337 × 285; 3 KB
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Compute a Branch of a function 01.svg 800 × 480; 26 KB
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Cross product of i j k.png 110 × 112; 3 KB
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Cylinder Sphere Optimization Problem.svg 365 × 360; 15 KB
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De-Infinitesimalrechnung.ogg 3,2 s; 31 KB
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Derivada y recta tangente.svg 322 × 222; 38 KB
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DifferentialExample01.svg 450 × 261; 35 KB
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DifferentialExample02.svg 450 × 308; 28 KB
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Divergence theorem example.svg 116 × 94; 66 KB
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Doubledel.png 162 × 212; 8 KB
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Draw a typical circular sector 01.png 640 × 384; 49 KB
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Draw a typical circular sector 02.png 640 × 384; 44 KB
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Draw tangent of a vectoriel function 01.png 640 × 384; 23 KB
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Draw tangent of a vectoriel function 02.png 640 × 384; 27 KB
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Draw the tangent of a vectoriel function in 3d 01.png 640 × 384; 31 KB
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Draw the tangent of a vectoriel function in 3d 02.png 640 × 384; 24 KB
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Egm6341.s10.mtg2.pdf 254 × 356, 4 pajine; 1,43 MB
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ExtremeValueTheorem.png 1 300 × 975; 123 KB
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Find PA, the length of the Normal from P to the x axis. 01.png 640 × 384; 17 KB
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Find PA, the length of the Normal from P to the x axis. 02.png 640 × 384; 23 KB
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Find PA, the length of the Normal from P to the x axis. 03.png 640 × 384; 20 KB
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Find PA, the length of the Normal from P to the x axis. 04.png 640 × 384; 17 KB
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Find PA, the length of the Normal from P to the x axis. 05.png 640 × 384; 23 KB
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Find PA, the length of the tangent from P to the x axis 01.png 640 × 384; 17 KB
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Find PA, the length of the tangent from P to the x axis 02.png 640 × 384; 23 KB
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Find PA, the length of the tangent from P to the x axis 03.png 640 × 384; 23 KB
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Find PA, the length of the tangent from P to the x axis 04.png 640 × 384; 19 KB
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Find PA, the length of the tangent from P to the x axis 05.png 640 × 384; 20 KB
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Find PB, the length of the Normal from P to the y axis. 01.png 640 × 384; 24 KB
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Find PB, the length of the Normal from P to the y axis. 02.png 640 × 384; 20 KB
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Find PB, the length of the Normal from P to the y axis. 03.png 640 × 384; 17 KB
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Find PB, the length of the Normal from P to the y axis. 04.png 640 × 384; 23 KB
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Find PB, the length of the tangent from P to the y axis 01.png 640 × 384; 18 KB
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Find PB, the length of the tangent from P to the y axis 02.png 640 × 384; 23 KB
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Find PB, the length of the tangent from P to the y axis 03.png 640 × 384; 23 KB
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Find PB, the length of the tangent from P to the y axis 04.png 640 × 384; 19 KB
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Find PB, the length of the tangent from P to the y axis 05.png 640 × 384; 20 KB
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Find the intersection points of the normal with the x-y axis 01.png 640 × 384; 23 KB
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Find the intersection points of the normal with the x-y axis 02.png 640 × 384; 25 KB
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Find the intersection points of the normal with the x-y axis 03.png 640 × 384; 22 KB
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Find the intersection points of the normal with the x-y axis 04.png 640 × 384; 19 KB
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Find the intersection points of the normal with the x-y axis 05.png 640 × 384; 26 KB
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Five Antiderivatives of exp(xx+1div(xx)) II.png 1 232 × 934; 138 KB
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Five Antiderivatives of exp(xx+1div(xx)).png 1 211 × 934; 118 KB
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Fourier serie for my wikibook.png 640 × 384; 23 KB
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Fourier serie in language c with gnuplot.png 640 × 384; 23 KB
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Fractional Derivative-Weyl.gif 463 × 253; 1,49 MB
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Fractional Derivatives-Euler.gif 480 × 265; 1,66 MB
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Christoph Bernhard Francke - Bildnis des Philosophen Leibniz (ca. 1695) (cropped).jpg 2 421 × 2 628; 1,49 MB
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Christoph Bernhard Francke - Bildnis des Philosophen Leibniz (ca. 1695) (cropped)2.jpg 1 514 × 1 912; 786 KB
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Christoph Bernhard Francke - Bildnis des Philosophen Leibniz (ca. 1695).jpg 4 486 × 5 538; 4,22 MB
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Gottfried Wilhelm von Leibniz.jpg 316 × 400; 38 KB
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FTC geometric2.png 2 000 × 1 155; 123 KB
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Fundamental Theorem of Calculus.svg 117 × 30; 13 KB
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Funktionvariante2.svg 165 × 165; 484 KB
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Gottfried Wilhelm Leibniz, Bernhard Christoph Francke.jpg 4 486 × 5 538; 11,2 MB
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Graph of sin(x^-1).svg 600 × 480; 18 KB
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Graph of x^-2.svg 600 × 480; 11 KB
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Graphing Exercise of L'hôpital's Rule.svg 512 × 384; 40 KB
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Heaviside function with gnuplot and C language.png 640 × 384; 8 KB
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Hyperbolic Paraboloid.png 1 376 × 864; 145 KB
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If a curve C has a smooth parametrization 01.png 640 × 384; 20 KB
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If a curve C has a smooth parametrization 02.png 640 × 384; 20 KB
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Ijk-coordinate-system.png 920 × 946; 123 KB
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Illustration To Derivation Of Asymptotic For Saddle Point Integration.pdf 1 125 × 1 500; 3,91 MB
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Infinitesimal Calculus 1.png 401 × 274; 3 KB
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Integral and derivative.svg 371 × 126; 8 KB
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Integration of ln x.svg 1 564 × 1 923; 45 KB
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Interseção de cos(2 pi x) e 1.svg 429 × 235; 95 KB
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IntervallschachtellungWurzel2.svg 637 × 227; 36 KB
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Involutes of a cubic curve.svg 1 440 × 1 440; 59 KB
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Kinematics.svg 524 × 317; 32 KB
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Leibniz sector formula.svg 314 × 305; 49 KB
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LeibnizNotation.png 354 × 202; 15 KB
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Limit L Hopital.svg 284 × 50; 8 KB
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Limite f(x,y) Formes indéterminées A00.png 640 × 480; 119 KB
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Limite f(x,y) Formes indéterminées A01.png 640 × 480; 114 KB
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Limiting subdifferential.png 991 × 986; 140 KB
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Log epsilon algo.svg 999 × 652; 45 KB
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MaFonction.png 357 × 242; 8 KB
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Maximizing revenue.png 3 000 × 2 190; 266 KB
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My spherical coordinates.png 1 407 × 1 138; 64 KB
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Màxims i mínims d'una funció.PNG 477 × 519; 25 KB
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Newton'smethod 01.png 640 × 480; 28 KB
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Newton'smethod 03.png 640 × 480; 22 KB
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Oneven functie.PNG 346 × 340; 5 KB
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Optimization Problem 2.jpg 959 × 699; 85 KB
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Optimization Problem.jpg 960 × 720; 40 KB
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Parallelogram of forces - ball on slope.pdf 1 754 × 814; 11 KB
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Pendiente.png 356 × 212; 2 KB
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Pm1234 Abel.svg 197 × 477; 943 KB
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Problem.jpg 150 × 150; 5 KB
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Riemann sum simple functions.svg 261 × 116; 40 KB
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Riemann Sum.gif 1 075 × 359; 4,46 MB
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ScriptPente.png 431 × 304; 10 KB
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Senkrechte Tangente.svg 3 020 × 2 120; 94 KB
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ShadowProblem.svg 252 × 513; 121 KB
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Smoothmax.png 640 × 384; 28 KB
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Spirale animation m10 p10.gif 1 048 × 834; 9,61 MB
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Strength and Yield Forming The Infinitely Rotary Source of Power.png 1 225 × 340; 32 KB
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Tangent Line Approximation.svg 414 × 405; 22 KB
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The area A of the region bounded by the graphs of r = 2*cos(t).png 640 × 384; 49 KB
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The area A of the region bounded by the graphs of r = exp(t).png 640 × 384; 41 KB
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The Method of Fluxions (1730) Plate 6.jpg 1 219 × 828; 140 KB
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Theorems in differential calculus.png 4 961 × 7 016; 7,55 MB
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Theorems in differential calculus.svg 1 488 × 2 105; 8,15 MB
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Two polar equations r = f(t) and r = g(t) 01.png 640 × 384; 50 KB
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Two polar equations r = f(t) and r = g(t) 02.png 640 × 384; 57 KB
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Wag-133-Exercises-1 Projectile Trajectories.png 350 × 215; 33 KB
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Year 11 2U Limits and Continuity.pdf 754 × 566, 14 pajine; 425 KB
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Математика - это тоже наука!.jpg 3 264 × 2 448; 1,39 MB
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מערכת צירים 3D קרטזית ימנית.svg 269 × 207; 41 KB