Answer:
(a) 0.42 m
(b) 20.16 N/m
(c) - 0.42 m
(d) - 0.21 m
(e) 17.3 s
Solution:
As per the question:
Mass, m = 0.56 kg
x(t) = (0.42 m)cos[cos(6 rad/s)t]
Now,
The general eqn is:
[tex]x(t) = Acos\omega t[/tex]
where
A = Amplitude
[tex]\omega[/tex] = angular frequency
t = time
Now, on comparing the given eqn with the general eqn:
(a) The amplitude of oscillation:
A = 0.42 m
(b) Spring constant k is given by:
[tex]\omega = \sqrt{k}{m}[/tex]
[tex]\omega^{2} = \frac{k}{m}[/tex]
Thus
[tex]k = m\omega^{2} = 0.56\times 6^{2} = 20.16\ N/m[/tex]
(c) Position after one half period:
[tex]x(t) = 0.42cos\pi = - 0.42\ m[/tex]
(d) After one third of the period:
[tex]x(t) = 0.42cos(\frac{2\pi}{3}) = - 0.21\ m[/tex]
(e) Time taken to get at x = - 0.10 m:
[tex]-0.10 = 0.42cos6t[/tex]
[tex]6t = co^{- 1} \frac{- 0.10}{0.42}[/tex]
t = 17.3 s
