The largest value of c such that there e...

The largest value of `c` such that there exists a differentiable function `f(x)` for `-c lt x lt c` that satisfies the equation `y_1 = 1+y^2` with `f(0)=0` is (A) `1` (B) `pi` (C) `pi/3` (D) `pi/2`

Similar Questions

Explore conceptually related problems

There exists a function f(x) satisfying 'f (0)=1,f(0)=-1,f(x) lt 0,AAx and

If the equation x^3+b x^2+c x+1=0,(b (a) -pi (b) -pi/2 (c) pi/2 (d) pi

The number of ordered pairs which satisfy the equation x^2+2xsin(x y)+1=0 are (where y in [0,2pi] ) 1 (b) 2 (c) 3 (d) 0

If y=cos x ,then what is the maximum value of y (A) 1 (B) -1 (C) pi (D) 2 pi

The number of ordered pairs which satisfy the equation x^2+2xsin(x y)+1=0 are (where y in [0,2pi] ) (a) 1 (b) 2 (c) 3 (d) 0

The function y=1-cos x is maximum , when x=...a) 0 b) pi/2 c) pi d) -pi/6

f(x) and g(x) are differentiable functions for 0 le x le 2 such that f(0)=5, g(0)=0, f(2)=8, g(2)=1 . Show that there exists a number c satisfying 0 lt c lt 2 and f'(c)=3g'(c) .

The primitive of the function f(x)=(2x+1)|sin x| , when pi lt x lt 2 pi is

The largest value of `c` such that there exists a differentiable function `f(x)` for `-c lt x lt c` that satisfies the equation `y_1 = 1+y^2` with `f(0)=0` is (A) `1` (B) `pi` (C) `pi/3` (D) `pi/2`

Similar Questions

Recommended Questions