The Average velocity for the bacterium is 0.75 unit/sec.
Explanation:
The given values are in the vector form
Where,
dS = distance covered
dT = time interval
Now, to calculate distance covered, we have
[tex]|d S|=\sqrt{d S^{2}}[/tex]
&
[tex]d S=r_{2}-r_{1}[/tex]
d S=(4.6 i+1.9 k)-(2.2 i+3.7 j - 1.2 k)
d S=(4.6-2.2) i+(0-3.7) j+(1.9+1.2) k
d S=2.4 i-3.7 j+3.1 k
Now, putting these values in the standard formula to evaluate the average velocity, we get;
[tex]v_{a v g}=\frac{|\mathrm{d} S|}{d T}[/tex]
[tex]v(a v g)=\frac{|\sqrt{\left\{\left(2.4^{2}\right)+\left(3.7^{2}\right)+\left(3.1^{2}\right)\right\}}|}{7.2}[/tex]
As dT=7.2 sec
Now,
Solving the equation, we get;
[tex]v(a v g)=\frac{5.390732789}{7.2}[/tex]
[tex]\begin{aligned}&v(a v g)=\frac{5.39}{7.2}\\&v(a v g)=0.748611111\\&v(a v g)=0.75 \text { units / sec }\end{aligned}[/tex]
Hence, the average velocity for the bacterium is 0.75 unit/sec.
