> *Kindly any one show me the graph for inductor current and if possible
> explain it. I shall be very grateful!*

It's quite easy to do if you use a simulator (like Micro-cap): -

[![enter image description here][1]][1]

Voltage in blue and current through a 2 henry inductor in red. Timebase in seconds.

The current-voltage relationship for an inductor is: -

$$V = L\dfrac{di}{dt}$$

The above can be solved for current by integrating both sides.

$$i = \dfrac{1}{L}\int{v\: dt}$$

And, for a linearly rising voltage (\$v = V_{PK}\cdot t\$),

$$i = \dfrac{V_{PK}}{L}\int{t\: dt} = \dfrac{V_{PK}}{2L}t^2$$

Circuit: -

[![enter image description here][2]][2]


  [1]: https://i.sstatic.net/Q9zxN.png
  [2]: https://i.sstatic.net/tv5Er.png