isi-entrance 2018 Q4

isi-entrance · India · UGB Standard Integrals and Reverse Chain Rule Differentiability and Properties of Integral-Defined Functions

Let $f : ( 0 , \infty ) \rightarrow \mathbb { R }$ be a continuous function such that for all $x \in ( 0 , \infty )$, $$f ( 2 x ) = f ( x )$$ Show that the function $g$ defined by the equation $$g ( x ) = \int _ { x } ^ { 2 x } f ( t ) \frac { d t } { t } \text { for } x > 0$$ is a constant function.

Let $f : ( 0 , \infty ) \rightarrow \mathbb { R }$ be a continuous function such that for all $x \in ( 0 , \infty )$,
$$f ( 2 x ) = f ( x )$$
Show that the function $g$ defined by the equation
$$g ( x ) = \int _ { x } ^ { 2 x } f ( t ) \frac { d t } { t } \text { for } x > 0$$
is a constant function.

Paper Questions

Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8