Guven that the distance
d that a certain particle moves may be calculated from the expression [tex]d = at + bt^2[/tex] where a and b are constants; and t is the elapsed time.
Distance is a length and hence the dimension of distance is L.
Now, [tex]at[/tex] and [tex]bt^2[/tex] also will have the dimension of L.
Time has a dimension of T.
For [tex]at[/tex], let the dimension of [tex]a[/tex] be [tex]X[/tex], then
[tex]XT=L \\ \\ \Rightarrow X=\frac{L}{T}[/tex]
For [tex]bt^2[/tex], let the dimension of [tex]b[/tex] be [tex]Y[/tex], then
[tex]YT^2=L \\ \\ \Rightarrow Y= \frac{L}{T^2} [/tex]
Therefore, the dimension of [tex]a[/tex] is [tex]\frac{L}{T}[/tex] while the dimension of [tex]b[/tex] is [tex]\frac{L}{T^2}[/tex].
