Consider the curve `f(x)=x^(1/3)`, then

Consider the cubic equation f(x)=x^(3)-nx+1=0 where n ge3, n in N then f(x)=0 has

Area bounded by the curve y=x^3 the x-axis and the ordinates x=-2 and x=1 is

If f : RrarrR be the functions defined by f(x) = x^(3) + 5 , then f^(-1)(x) is ........

The area of the curve bounded by the curve f(x) = sin pi x and X - axis is ……sq. units . x in [1,3]

Consider a curve y=f(x) in xy-plane. The curve passes through (0,0) and has the property that a segment of tangent drawn at any point P(x,f(x)) and the line y = 3 gets bisected by the line x + y = 1 then the equation of curve, is

Consider the function f(x)=f(x)={{:(x-1",",-1lexle0),(x^(2)",", 0lexle1):} and " "g(x)=sinx. If h_(1)(x)=f(|g(x)|) " and "h_(2)(x)=|f(g(x))|. Which of the following is not true about h_(2)(x) ?

Consider the function f(x)={{:(x sin.(pi)/(x)","," for "x gt0),(0","," for "x=0):} , then the number of points in (0, 1), where the derivative f'(x) tends to zero is

The slope of the tangent to the curve (y-x^5)^2=x(1+x^2)^2 at the point (1,3) is.

Consider the function f(x)=1+2x+3x^2+4x^3 Let the sum of all distinct real roots of f (x) and let t= |s| The function f(x) is

if |f(x_1)-f(x_2)|<=(x_1-x_2)^2 Find the equation of tangent to the curve y= f(x) at the point (1, 2).