Answer:
a)693.821N/m
b)17.5g
Explanation:
We the Period T we can find the constant k,
That is
[tex]T = 2 \pi \sqrt{\frac{m}{k}}[/tex]
squaring on both sides,
[tex]T^2=\frac{4\pi^2}{k}M +\frac{4\pi^2}{k}m_{spring}[/tex]
where,
M=hanging mass, m = spring mass,
k =spring constant
T =time period
a) So for the equation we can compare, that is,
[tex]y=T^2=0.0569x+0.0010[/tex]
the hanging mass M is x here, so comparing the equation we know that
[tex]\frac{4\pi^2}{k}=0.0569\\k= \frac{4\pi^2}{0.0569}\\k=693.821N/m[/tex]
b) In order to find the mass of the spring we make similar process, so comparing,
[tex]\frac{4\pi^2}{k}m =0.001\\m=\frac{0.004k}{4\pi^2} =\frac{0.001*693.821}{4\pi^2}\\m=0.0175kg\\m=17.5g[/tex]
