Limit, Continuity and Differentiability for JEE Main 2014
5 likes2,968 views
The document discusses limits, continuity, and differentiability. It defines the limit of a function, continuity of a function at a point using three conditions, and Cauchy's definition of continuity using delta and epsilon. It also discusses left and right continuity, Heine's definition of continuity using convergent sequences, and the formal definition of continuity. Examples are provided to illustrate calculating limits and determining continuity.
![Continuity
Introduction
The word ‘Continuous’ means without any
break or gap. If the graph of a function has no
break, or gap or jump, then it is said to be
continuous.
A function which is not continuous is called a
discontinuous function.
While studying graphs of functions, we see that
graphs of functions sin x, x, cos x, ex etc. are
continuous but greatest integer function [x] has
break at every integral point, so it is not
continuous.](https://image.slidesharecdn.com/limitcontinuityanddifferentiability-131224032053-phpapp01/85/Limit-Continuity-and-Differentiability-for-JEE-Main-2014-11-320.jpg)
Limit, Continuity and Differentiability for JEE Main 2014
- 1. Limit, Continuity and Differentiability Limits 1. e x e sin x lim x 0 x sin x is equal to (a) –1 (b) 0 (c) 1 (d) None of these
- 2. Ans: (c) 1 e x e sin x lim x 0 x sin x , 0 form 0 Using L-Hospital’s rule three times, then e x e sin x . cos x e x e sin x cos 2 x sin x .e sin x lim lim x 0 x 0 1 cos x sin x e x e sin x . cos 3 x e sin x 2 cos x sin x e sin x . cos x sin x e sin x . cos x lim x 0 cos x = 1.
- 3. 2. The value of the constant α and β such that x2 1 lim x 0 x x 1 are respectively (a) (1, 1) (b) (–1, 1) (c) (1, –1) (d) (0, 1)
- 4. Ans: (c) (1, –1) x2 1 lim 2x 0 x x 1 x 2 (1 ) x ( ) 1 b lim 0 x x 1 Since the limit of the given expression is zero, therefore degree of the polynomial in numerator must be less than denominator. 1 – α = 0 and α + β = 0 , α = 1 and β = 1.
- 5. 3. Let f: RR be a differentiable function f (x ) 1 4 t3 f (2) 6, f ' (2) . having Then xlim2 x 2 dt 48 6 equals (a) 12 (b) 18 (c) 24 (d) 36
- 6. Ans: (b) 18 f (x ) lim x 2 6 4 t 3 dt x 2 4( f (x ))3 f ' (x ) (0 / 0 form) lim x 2 1 = 4 (f(2))3 × f(2) = 18.
- 7. 1 n2 lim 4. The value of n n will be (a) – 2 (b) – 1 (c) 2 (d) 1
- 8. Ans: (a) – 2 1 n 2 lim (1 n)(1 n) 2 (1 n) lim n 1 lim n(n 1) n n n n 2 1 lim 2 1 n n =2(0 – 1) = -2
- 9. 1 2 3 ....n 5. The value of n n 2 100 is equal lim (a) ∞ (b) 1/2 (c) 2 (d) 0
- 10. Ans: 1 2 3 ..... n We have, n n 2 100 lim 1 n 2 1 n n(n 1) 1 lim lim n 2(n 2 100 ) n 100 2 . 2n 2 1 2 n
- 11. Continuity Introduction The word ‘Continuous’ means without any break or gap. If the graph of a function has no break, or gap or jump, then it is said to be continuous. A function which is not continuous is called a discontinuous function. While studying graphs of functions, we see that graphs of functions sin x, x, cos x, ex etc. are continuous but greatest integer function [x] has break at every integral point, so it is not continuous.
- 12. 1 Similarly tan x, cot x, sec x, etc. are also x discontinuous function.
- 13. Continuity of a Function at a Point A function f(x) is said to be continuous at a point x = a of its domain iff. lim f (x) f (a) xa i.e. a function f(x) is continuous at x = a if and only if it satisfies the following three conditions : 1. f(a) exists. (‘a’ lies in the domain of f) 2. lim f (x) exist i.e. lim f (x) lim f (x) or xa R.H.S. = L.H.S. xa xa
- 14. 3. lim f (x) f (a) xa function). (limit equals the value of
- 15. Cauchy’s definition of continuity A function f is said to be continuous at a point a of its domain D if for every ∊ > 0 there exists δ > 0 (dependent on ∊) such that | x a | |f (x) f (a) | . Comparing this definition with the definition of limit we find that f(x) is continuous at x = a if lim f (x) exists and is equal to f(a) i.e., if xa lim f (x) f (a) lim f (x) . xa xa
- 16. Heine’s definition of continuity A function f is said to be continuous at a point a of its domain D, converging to a, the sequence <an> of the points in D converging to a, the sequence <f(an)> converges to f(a) i.e. lim an = a ⇒ lim f(an) = f(a). This definition is mainly used to prove the discontinuity to a function. Continuity of a function at a point, we find its limit and value at that point, if these two exist and are equal, then function is continuous at that point.
- 17. Formal definition of continuity The function f(x) is said to be continuous at x = a in its domain if for any arbitrary chosen positive number ∊ > 0, we can find a corresponding number δ depending on ∊ such that |f(x) – f(a)| < ∊ ∀ x for which 0 < | x – a| < δ. Continuity from Left and Right Function f(x) is said to be 1. Left continuous at x = a if lim f (x) f (a) xa0 2. Right continuous at x = a if Lim f (x) f (a) . xa 0
- 18. Thus a function f(x) is continuous at a point x = a if it is left continuous as well as right continuous at x = a. For more please visit www.ednexa.com Or you can call 9011041155 for any help. -Team Ednexa