The average deceleration, $a=-3400\mathrm{g}$ 

Time interval,  $t=6.50 \mathrm{ms}$ 

Kinematic equations describe the motion of an object with constant acceleration. These equations can be used to determine the acceleration, velocity or distance.

The expression for the kinematic equations of motion are given as follows: 

$\mathrm{v}={\mathrm{v}}_0+\mathrm{at}$

                                                                                            … (i)

Here, ${\mathrm{v}}_0$ is the initial velocity,  is the final velocity, $t$ is the time, $\mathrm{a}$ is the acceleration.

The final speed of the airplane is zero, that is $\mathrm{v} = 0$ 

Using equation (i) the initial speed can be calculated as follows: 

$$\begin{gathered} v_{0 }=\mathrm{v}-\mathrm{at} \\ =0-\left(-3400\mathrm{g}\right)\times \left(6.50 ms\times \frac{1\mathrm{s}}{100 \mathrm{ms}}\right) \\ =\left(3400 \times 9.8 \mathrm{m}/{\mathrm{s}}^2\right)\left(6.50\times {10}^3\mathrm{s}\right) \\ =216.6 \mathrm{m}/\mathrm{s} \end{gathered}$$ 

Thus, the speed of the recorder and the airplane at the beginning of the interval is $216.6 \mathrm{m}/\mathrm{s}$.