Home
Class 12
MATHS
Let f be a contiuous function on [a,b]. ...

Let `f` be a contiuous function on `[a,b]`. If `F(x)=(int_(a)^(x)f(t)dt-int_(x)^(b)f(t)dt)(2x-(a+b))`,
then prove that there exist some `c epsilon(a,b)` such that `int_(a)^(c)f(t)dt-int_(c)^(b)f(t)dt=f(c)(a+b-2c)`

Text Solution

Verified by Experts

Given `F(x)=(int_(a)^(x)f(t)dt-int_(x)^(b)f(t)dt)(2x-(a+b))`………….1
As `f` is continuous `F(x)`is also continuous.
Now, `F(a)=(-int_(a)^(b)f(t)dt)(a-b)=(b-a)int_(a)^(b)f(t)dt`
and `F(b)=(int_(a)^(b)f(t)dt)(b-a)`
Thus `F(a)=F(b)`
Hence, Rolle's Theorem is applicable to `F(x)`.
Therefore there exists at least one `c epsilon(a,b)` such that `F'(c)=0`
`:. 2(int_(a)^(c)f(t)dt-int_(c)^(b)f(t)dt)+(f(c)-(-f(c))).(2c-(a+b))=0`
Hence proved.
Promotional Banner

Topper's Solved these Questions

  • DEFINITE INTEGRATION

    CENGAGE PUBLICATION|Exercise CAE_TYPE|88 Videos

  • DEFINITE INTEGRATION

    CENGAGE PUBLICATION|Exercise SCQ_TYPE|113 Videos

  • DEFINITE INTEGRATION

    CENGAGE PUBLICATION|Exercise JEE ADVANCED|38 Videos

  • CURVE TRACING

    CENGAGE PUBLICATION|Exercise EXERCISES|24 Videos

  • DETERMINANT

    CENGAGE PUBLICATION|Exercise Multiple Correct Answer|5 Videos

Similar Questions

Explore conceptually related problems

Prove that int_(a)^(b)f(x)dx=int_(a)^(b)f(a+b-x)dx.

Prove that, int_(a)^(b)f(a+b-x)dx=int_(a)^(b)f(x)dx .

If int_(0)^(x) f(t)dt=x+int_(x)^(1)t f(t)dt , find the value of f(1).

If int_(0)^(x)f(t)dt=x^2+int_(x)^(1)t^2f(t)dt , then f((1)/(2)) is equal to

Let f be a continuous function on [a ,b]dot Prove that there exists a number x in [a , b] such that int_a^xf(t)dt=int_x^bf(t)dtdot

Let f:RtoR be a continuous function which satisfies f(x)=int_(0)^(x)f(t)dt . Then the value of f(log_(e)5) is

Let f:RtoR be a differentiable function such that f(x)=x^(2)+int_(0)^(x)e^(-t)f(x-t)dt . y=f(x) is

f: R to R is a continuous and f(x)=int_(0)^(x)f(t)dt then f(log_(e)5)= ?

f(x)=int_1^xlogt/(1+t+t^2)dt (xge1) then prove that f(x) =f(1/x)

If f(t) is an odd function, then int_(0)^(x)f(t) dt is -

CENGAGE PUBLICATION-DEFINITE INTEGRATION -SOLVED EXAMPLE_TYPE
  1. f,g,h are continuous in [0,a],f(a-x)=f(x),g(a-x)=-g(x),3h(x)-4h(a-x)=5...

    Text Solution

    |

  2. Evaluate int(0)^((pi)/2)(sin3x)/(sinx+cosx) dx.

    Text Solution

    |

  3. Let f:[0,4]rarrR be a differentiable function then for some alpha, bet...

    Text Solution

    |

  4. Prove that int(0)^(oo) (sin^(2)x)/(x^(2))dx=int(0)^(oo) (sinx)/x dx

    Text Solution

    |

  5. If int0^(pi/2)logsinthetadtheta=k , then find the value of intpi^(pi/2...

    Text Solution

    |

  6. Evaluate: int0^pi(xsin2xsin(pi/2cosx))/(2x-pi)dx

    Text Solution

    |

  7. Find the value of int(-pi/3)^(pi/3)(pi+4x^3)/(2-cos(|x|pi/3))dx

    Text Solution

    |

  8. It is known that f(x) is an odd function and has a period p. Prove tha...

    Text Solution

    |

  9. Evaluate: int0^(pi/4)(tan^(-1)((2cos^2theta)/(2-sin2theta)))sec^2theta...

    Text Solution

    |

  10. If f(x)=(sinx)/xAAx in (0,pi], prove that pi/2int0^(pi/2)f(x)f(pi/2-x)...

    Text Solution

    |

  11. Let f(x) be a continuous function AAx in R , except at x=0, such that...

    Text Solution

    |

  12. If xint0^xsin(f(t))dt=(x+2)int0^x tsin(f(t))dt ,w h e r ex >0, then sh...

    Text Solution

    |

  13. Show that: int0^(pi//2)f(sin2x)sinxdx=sqrt(2)int0^(pi//4)f(cos2x)co...

    Text Solution

    |

  14. Let a+b=4,w h e r ea<2,a n dl e tg(x) be a differentiable function. If...

    Text Solution

    |

  15. about to only mathematics

    Text Solution

    |

  16. If f(x+f(y))=f(x)+yAAx ,y in R and f(0)=1, then prove that int0^2f(2-...

    Text Solution

    |

  17. Suppose f is a real-valued differentiable function defined on [1,oo] w...

    Text Solution

    |

  18. Let f be a contiuous function on [a,b]. If F(x)=(int(a)^(x)f(t)dt-int(...

    Text Solution

    |

  19. f(x) is a continuous and bijective function on Rdot If AAt in R , the...

    Text Solution

    |

  20. If f(x)=x+int0^1 t(x+t) f(t)dt, then find the value of the definite in...

    Text Solution

    |