If f(x) = , then f'(2) is equal to
0
- 1
1
2
A.
0
We have,
Let f(x + y) = f(x) f(y) and f(x) = 1 + sin(3x) g(x), where g is differentiable.The f'(x) is equal to
3f(x)
g(0)
f(x)g(0)
3g(x)
If the displacements of a particle at time t is given by s2 = at2 + 2bt + c, then acceleration varies as :
s3
Let f(x) be twice differentiable such that f''(x) = - f(x), f'(x) = g(x), where f'(x) and f''(x) represent the first and second derivatives of f(x) respectively. Also, if h(x) = [f(x)]2 + [g(x)]2 and h(S) = 5, then h(10) is equal to :
3
10
13
5
If a particle is moving such that the velocity acquired is proportional to the square root of the distance covered, then its acceleration is :
a constant
If g(x) = min (x, x) where x is a real number, then :
g(x) is an increasing function
g(x) is a decreasing function
g(x) is a constant function
g(x) is a continuous function except at x = 0