initSidebarItems({"fn":[["abs","The `Math.abs()` function returns the absolute value of a number, that is Math.abs(x) = |x|"],["acos","The `Math.acos()` function returns the arccosine (in radians) of a number, that is ∀x∊[-1;1] Math.acos(x) = arccos(x) = the unique y∊[0;π] such that cos(y)=x"],["acosh","The `Math.acosh()` function returns the hyperbolic arc-cosine of a number, that is ∀x ≥ 1 Math.acosh(x) = arcosh(x) = the unique y ≥ 0 such that cosh(y) = x"],["asin","The `Math.asin()` function returns the arcsine (in radians) of a number, that is ∀x ∊ [-1;1] Math.asin(x) = arcsin(x) = the unique y∊[-π2;π2] such that sin(y) = x"],["asinh","The `Math.asinh()` function returns the hyperbolic arcsine of a number, that is Math.asinh(x) = arsinh(x) = the unique y such that sinh(y) = x"],["atan","The `Math.atan()` function returns the arctangent (in radians) of a number, that is Math.atan(x) = arctan(x) = the unique y ∊ [-π2;π2]such that tan(y) = x"],["atan2","The `Math.atan2()` function returns the arctangent of the quotient of its arguments."],["atanh","The `Math.atanh()` function returns the hyperbolic arctangent of a number, that is ∀x ∊ (-1,1), Math.atanh(x) = arctanh(x) = the unique y such that tanh(y) = x"],["cbrt","The `Math.cbrt() `function returns the cube root of a number, that is Math.cbrt(x) = ∛x = the unique y such that y^3 = x"],["ceil","The `Math.ceil()` function returns the smallest integer greater than or equal to a given number."],["clz32","The `Math.clz32()` function returns the number of leading zero bits in the 32-bit binary representation of a number."],["cos","The `Math.cos()` static function returns the cosine of the specified angle, which must be specified in radians. This value is length(adjacent)/length(hypotenuse)."],["cosh","The `Math.cosh()` function returns the hyperbolic cosine of a number, that can be expressed using the constant e."],["exp","The `Math.exp()` function returns e^x, where x is the argument, and e is Euler's number (also known as Napier's constant), the base of the natural logarithms."],["expm1","The `Math.expm1()` function returns e^x - 1, where x is the argument, and e the base of the natural logarithms."],["floor","The `Math.floor()` function returns the largest integer less than or equal to a given number."],["fround","The `Math.fround()` function returns the nearest 32-bit single precision float representation of a Number."],["hypot","The `Math.hypot()` function returns the square root of the sum of squares of its arguments."],["imul","The `Math.imul()` function returns the result of the C-like 32-bit multiplication of the two parameters."],["log","The `Math.log()` function returns the natural logarithm (base e) of a number. The JavaScript `Math.log()` function is equivalent to ln(x) in mathematics."],["log10","The `Math.log10()` function returns the base 10 logarithm of a number."],["log1p","The `Math.log1p()` function returns the natural logarithm (base e) of 1 + a number. MDN documentation"],["log2","The `Math.log2()` function returns the base 2 logarithm of a number."],["max","The `Math.max()` function returns the largest of two numbers."],["min","The static function `Math.min()` returns the lowest-valued number passed into it."],["pow","The `Math.pow()` function returns the base to the exponent power, that is, base^exponent."],["random","The `Math.random()` function returns a floating-point, pseudo-random number in the range 0–1 (inclusive of 0, but not 1) with approximately uniform distribution over that range — which you can then scale to your desired range. The implementation selects the initial seed to the random number generation algorithm; it cannot be chosen or reset by the user."],["round","The `Math.round()` function returns the value of a number rounded to the nearest integer."],["sign","The `Math.sign()` function returns the sign of a number, indicating whether the number is positive, negative or zero."],["sin","The `Math.sin()` function returns the sine of a number."],["sinh","The `Math.sinh()` function returns the hyperbolic sine of a number, that can be expressed using the constant e: Math.sinh(x) = (e^x - e^-x)/2"],["sqrt","The `Math.sqrt()` function returns the square root of a number, that is ∀x ≥ 0, Math.sqrt(x) = √x = the unique y ≥ 0 such that y^2 = x"],["tan","The `Math.tan()` function returns the tangent of a number."],["tanh","The `Math.tanh()` function returns the hyperbolic tangent of a number, that is tanh x = sinh x / cosh x = (e^x - e^-x)/(e^x + e^-x) = (e^2x - 1)/(e^2x + 1)"],["trunc","The `Math.trunc()` function returns the integer part of a number by removing any fractional digits."]]});