Transcript function
Functions, properties. elementary functions and their inverses 2. előadás Index FAQ Function Video: http://www.youtube.com/user/MyWhyU?v=Imn_Qi3dlns Index FAQ Function A function, denoted by f, is a mapping from a set A to a set B which sarisfies the following: for each element a in A, there is an element b in B. The set A in the above definition is called the Domain of the function Df and B its codomain. The Range (or image) of the function Rf is a subset of a codomain. Thus, f is a function if it covers the domain (maps every element of the domain) and it is single valued. Index FAQ Vertical lines test If we have a graph of a function in a usual Descartes coordinate system, then we can decide easily whether a mapping is a function or not: it is a function if there are no vertical lines that intersect the graph at more than one point. Index FAQ Injective function A function f is said to be one-to-one (injective) , if and only if whenever f(x) = f(y) , x = y . Example: The function f(x) = x2 from the set of natural numbers N to N is a one-to-one function. Note that f(x) = x2 is not one-to-one if it is from the set of integers(negative as well as non-negative) to N , because for example f(1) = f(-1) = 1 . Index FAQ Surjective function A function f from a set A to a set B is said to be onto(surjective) , if and only if for every element y of B , there is an element x in A such that f(x) = y , that is, f is onto if and only if f( A ) = B . Index FAQ Bijection, bijective function Definition: A function is called a bijection , or bijective function if it is onto and one-to-one. Example: The function f(x) = 2x from the set of natural numbers N to the set of non-negative even numbers E is an onto function. However, f(x) = 2x from the set of natural numbers N to N is not onto, because, for example, nothing in N can be mapped to 3 by this function. Index FAQ Bijection, bijective function Horizontal Line Test: A function f is one to one iff its graph intersects every horizontal line at most once. If f is either an increasing or a decreasing function on its domain, then is one-to-one . Index FAQ Restriction, extension Sometime we have to restrict or extend the original domain of a function. That is, that we keep the mapping, but the domain of the function is a subset of the original domain: function g is a restriction of function f, if Dg Df and g(x)=f(x). Function f is the extension of g. x Example: f(x)= x2 Df =R. g(x)= x2 Dg=R+ f is not bijective, function g is bijective Index FAQ Operations on fuctions Let f and g be functions from a set A to the set of real numbers R. Then the sum , the product , and the quotient of f and g are defined as follows: - for all x, ( f + g )(x) = f(x) + g(x) , and - for all x, ( f*g )(x) = f(x)*g(x) , f(x)*g(x) is the product of two real numbers f(x) and g(x). - for all x, except for x-es where g(x)=0, ( f/g )(x) = f(x)/g(x) ( f/g )(x) is a quotient of two real numbers f(x) and g(x) Example: Let f(x) = 3x + 1 and g(x) = x2 . Then ( f + g )(x) = x2 + 3x + 1 , and ( f*g )(x) = 3x3 + x2 =h(x), if l(x)=x, then (h/l)(x)=3 x2 +x Index FAQ Composed function In function composition, you're plugging an entire function for the x: Definition:Given f: XY, g: Y Z; then g o f: X Z is defined by g o f(x) = g(f(x)) for all x. Read “g composed with f” or “g circle of f”, or “g’s of f” ) Example: f(x)=3x+5, g(x) = 2x then g o f (x)= g(f(x)= 23x+5 and f o g (x)=f(g(x))= 3(2x)+5 Index FAQ Inverse of(to) a function Definition: Let f be a function with domain D and range R. A function g with domain R and range D is an inverse function for f if, for all x in D, y = f(x) if and only if x = g(y). Examples: Index FAQ Linear function transformation Transforming the variable Transforming the functional value Index FAQ Transforming the variable The graph is translated by –c along the x axis Index FAQ Transforming the variable Index FAQ Transforming the variable If 0<a<1 If a<1 Index FAQ Transforming the variable The left side of axis y is neglected, and the right hand side of y is reflected o axis y Index FAQ Transforming the functional value The graph is translated along the y axis, if c is positive, then to + direction, if -, then to the - direction Index FAQ Transforming the functional value Graph is reflected to the x axis Index FAQ Transforming the functional value 1<a 1<a 0<a<1 Index FAQ Transforming the functional value The negative part of the graph is reflected to the x axis Index FAQ Function classification Power functions Index FAQ Function classification Polinomials Index FAQ Function classification Rational functions Index FAQ Function classification Irrational functions: if its equation consists also a fraction in a power Index FAQ Function classification Exponential function: ax Index FAQ Function classification Logarithmic functions based of.. where Index FAQ Function classification Trigonometri(cal) functions Index FAQ Elementary functions: Power, exponentional, trigonometrical and their inverses, and functions of their +,*,/ Index FAQ Bounded Bounded above: if there is a number B such that B is greater than or equal to every number in the range of f. (think maximum) Bounded: A function can have an upper bound, lower bound, both or be unbounded. Bounded below: if there is a number B such that B is less than or equal to every number in the range of f. (think minimum) A function is unbounded if it is not bounded above or below. A function is bounded if it is bounded above and below. Index FAQ Increasing and Decreasing Functions Let x1 and x2 be numbers in the domain of a function, f. The function f is increasing over an open interval if for every x1 < x2 in the interval, f(x1) < f(x2). The function f is decreasing over an open interval if for every x1 < x2 in the interval, f(x1) > f(x2). Index FAQ Increasing and Decreasing Functions Ask: what is y doing? as you read from left to right. Increasing (, 5) (0,3) (6, ) Decreasing (5,0) (3,6) Write your answer in set theory in terms of x Index FAQ Monotonity and inverse If the funcion is strictly monoton, then it has an inverse Index FAQ Global minima, maxima Suppose that a is in the domain of the function f such that, for all x in the domain of f, f(x) < f(a) then a is called a maximum of f. Suppose that a is in the domain of the function f such that, for all x in the domain of f, f(x) > f(a) then a is called a minimum of f. Index FAQ Local minima and maxima Suppose that a is in the domain of the function f and suppose that there is an open interval I containing a which is contained in the domain of f such that, for all x in I, f(x) < f(a) then a is called a local maximum of f. Suppose that a is in the domain of the function f and suppose that there is an open interval I containing a which is also contained in the domain of f such that, for all x in I, f(x) > f(a) then a is called a local minimum of f. Index FAQ Where are local and global maximas,minimas? Index FAQ Point of inflexion A point on the graph of a function where the curve changes concavity is called an inflection point. Index FAQ Concave down= Concave • If f ”(x) < 0 on an interval (a, b) then f ’ is decreasing on that interval. When the tangent slopes are decreasing the graph of f is concave down. Index FAQ Concavity When the tangent slopes are increasing the graph of f is concave up. Concave up=convex Index FAQ PARITY OF FUNCTIONS A function is "even" when: f(x) = f(-x) for all x (symmetrical around y) A function is "odd" when: -f(x) = f(-x) for all x (symmetrical around the origin) Index FAQ Graphs of some even functions Index FAQ Graphs of some odd functions Index FAQ Special Properties of odd and even functions Adding: The sum of two even functions is even The sum of two odd functions is odd The sum of an even and odd function is neither even nor odd (unless one function is zero). Multiplying: The product of two even functions is an even function. The product of two odd functions is an even function. The product of an even function and an odd function is an odd function. Index FAQ Periodic functions In mathematics, a periodic function is a function that repeats its values in regular intervals or periods. A function is said to be periodic (or, when emphasizing the presence of a single period instead of multiple periods, singly periodic) with period if for , 2, .... For example, the sine function , illustrated above, is periodic with least period (often simply called "the" period) (as well as with period , , , etc.). Index FAQ Inverse of sine: arc sin x Index FAQ Inverse of cosine: arc cos x Index FAQ Inverse of tan: arc tg x Index FAQ Inverse of cotan: arc ctg x Index FAQ