A 310,00 GRT vessel needs to achieve a steady speed of 13 knots after exiting a canal. If the speed of the vessel before exiting the canal is 3 knots, calculate the time (in minutes) to reach the desired speed assuming that her acceleration is 0.08 knots per minute.

To calculate the time taken to reach the desired speed of 13 knots, we can use the equation:

Time = (Final Speed - Initial Speed) / Acceleration

Using the given values:
Initial Speed = 3 knots
Final Speed = 13 knots
Acceleration = 0.08 knots per minute

Time = (13 - 3) / 0.08
Time = 125 minutes

Therefore, it will take 125 minutes for the vessel to reach the desired speed of 13 knots.

To calculate the distance covered during the acceleration from 3 knots to 13 knots, we can use the equation:

Distance = Initial Speed * Time + 0.5 * Acceleration * Time^2

Using the given values:
Initial Speed = 3 knots
Acceleration = 0.08 knots per minute
Time = 125 minutes

Distance = 3 * 125 + 0.5 * 0.08 * 125^2
Distance = 375 + 0.5 * 0.08 * 15625
Distance = 375 + 0.5 * 1,250
Distance = 375 + 625
Distance = 1,000 nautical miles

Therefore, the vessel will cover a distance of 1,000 nautical miles during the acceleration from 3 knots to 13 knots.