Mathematics for Enzyme Reaction Kinetics and Reactor Performance. F. Xavier MalcataЧитать онлайн книгу.

2 Function Features

      If a relationship between two real variables, y and x, is such that y becomes determined whenever x is given, then y is said to be a univariate (real‐valued) function of (real‐variable) x; this is usually denoted as y ≡ y{x}, where x is termed independent variable and y is termed dependent variable. The same value of y may be obtained for more than one value of x, but no more than one value of y is allowed for each value of x. If more than one independent variable exist, say, x₁, x₂, …, x_n, then a multivariate function arises, y ≡ y{x₁, x₂, …, x_n , }. The range of values of x for which y is defined constitutes its interval of definition, and a function may be represented either by an (explicit or implicit) analytical expression relating y to x (preferred), or instead by its plot on a plane (useful and comprehensive, except when x grows unbounded) – whereas selected values of said function may, for convenience, be listed in tabular form.

      Among the most useful quantitative relationships, polynomial functions stand up – of the form P_n {x} ≡ a_n xⁿ + a_{n − 1} x^{n − 1} + ⋯ + a₁ x + a₀, where a₀, a₁, …, a_n−1, and a_n denote (constant) real coefficients and n denotes an integer number; a rational function appears as the ratio of two such polynomials, P_n {x}/Q_m {x}, where subscripts n and m denote polynomial degree of numerator and denominator, respectively. Any function y{x} satisfying P{x}y^m + Q{x}y^m−1 + ⋯ + U{x}y + V{x} = 0, with m denoting an integer, is said to be algebraic; functions that cannot be defined in terms of a finite number of said polynomials, say, P{x}, Q{x}, …, U{x}, V{x}, are termed transcendental – as is the case of exponential and logarithmic functions, as well as trigonometric functions.

      A function f is said to be even when f{−x} = f{x} and odd if f{−x} = −f{x}; the vertical axis in a Cartesian system serves as axis of symmetry for the plot of the former, whereas the origin of coordinates serves as center of symmetry for the plot of the latter. Any function may be written as the sum of an even with an odd function; in fact,

(2.1)

      upon splitting f{x} in half, adding and subtracting f{−x}/2, and algebraically rearranging afterward. Note that f{x} + f{−x} remains unaltered when the sign of x is changed, while f{x} − f{−x} reverses sign when x is replaced by −x; therefore, (f{x} + f{−x})/2 is an even function, while (f{x} − f{−x})/2 is an odd function.

When the value of a function repeats itself at regular intervals that are multiples of some Τ, i.e. f{x + nΤ} = f{x} with n integer, then such a function is termed periodic of period Τ; a common example is sine and cosine with period 2π rad, as well as tangent with period π rad (as will be seen below).