Let `f(1)=-2a n df^(prime)(x)geq4. 2for1lt=xlt=6.` The smallest possible value of `f(6)` is 9 (b) 12 (c) 15 (d) 19

If f(x)=x^(2)+2x-2 and if f(s-1)=1 , what is the smallest possible value of s ?

Let f:(a , b)->R is a differentiable function such that (lim)_(x->a^+)f^2(x)=0,("lim")_(x->b^-)f^2(x)=e-1 and 2f(x)f^(prime)(x)-f^2(x)geq1 for all x in (a , b) then value of (b-a) can be (a) 0 (b) 1/2 (c) 1 (d) 2

Let f be differentiable for all x , If f(1)=-2a n df^(prime)(x)geq2 for all x in [1,6], then find the range of values of f(6)dot

Let f be differentiable for all x , If f(1)=-2a n df^(prime)(x)geq2 for all x in [1,6], then find the range of values of f(b)dot

Let f(x) be a polynomial of degree 3 such that f(3)=1,f^(prime)(3)=-1,f^(3)=0,a n df^(3)=12. Then the value of f^(prime)(1) is 12 (b) 23 (c) -13 (d) none of these

Let f(x)=cospix+10x+3x^2+x^3,-2lt=xlt=3. The absolute minimum value of f(x) is 0 (b) -15 (c) 3-2pi none of these

Let f(x) be a polynomial of degree 3 such that f(3)=1,f^(prime)(3)=-1,f^('')(3)=0,a n df^(''')(3)=12. Then the value of f^(prime)(1) is (a) 12 (b) 23 (c) -13 (d) none of these

Let f(x)a n dg(x) be differentiable for 0lt=xlt=1, such that f(0)=0,g(0)=0,f(1)=6. Let there exists real number c in (0,1) such taht f^(prime)(c)=2g^(prime)(c)dot Then the value of g(1) must be 1 (b) 3 (c) -2 (d) -1

Let f(x)={(sinx^2)/x x!=0 0x=0, then f^(prime)(0^+)+f^(prime)(0^-) has the value equal to (a) 0 (b) 1 (c) 2 (d) None of these

Let f(x)a n dg(x) be differentiable for 0lt=xlt=1, such that f(0)=0,g(0)=0,f(1)=6. Let there exists real number c in (0,1) such that f^(prime)(c)=2g^(prime)(c)dot Then the value of g(1) must be (a) 1 (b) 3 (c) -2 (d) -1