Ta có: \(v=\omega\sqrt{s^2_0-s^2}=\sqrt{gl\left(\alpha^2_0-a^2_1\right)}\)\(=0,271\left(m\right)=27,1\left(cm\text{/}s\right)\)

=2 7,1  cm/s

Ta có :

\(A=l'=\frac{mg}{k}=\frac{g}{\omega^2}\)
\(v_0=A\omega\Rightarrow\frac{g}{\omega}=v_0\Rightarrow\omega=\frac{g}{v_0}\)
\(\Rightarrow A=\frac{g}{\omega^2}=\frac{v^2_0}{g}=6,25\left(cm\right)\)

\(A=l'=\frac{mg}{k}=\frac{g}{\omega^2}\)
\(v_0=A\omega\Rightarrow\frac{g}{\omega}=v_0\Rightarrow\omega=\frac{g}{v_0}\)
\(\Rightarrow A=\frac{g}{\omega^2}=\frac{v^2_0}{g}=6,25\left(cm\right)\)

Gia tốc cực đại: \(a_{max}=\omega^2.A=(2\pi.2,5)^2.0,05=12,3m/s^2\)

Áp dụng: \(a = -\omega^2 x =-(2\pi)^2.3 = - 120\ cm/s^2 \)

Biên độ: \(A^2=x^2+\dfrac{v^2}{\omega^2}=(2\sqrt 3)^2+\dfrac{(20\sqrt 2)^2}{(10\sqrt 2)^2}\)

\(\Rightarrow A = 4cm\)

\(\cos\varphi = \dfrac{x}{A}=\dfrac{2\sqrt 3}{4}\)

\(v>0\Rightarrow \varphi < 0\)

Suy ra: \(\varphi=-\dfrac{\pi}{6}(rad)\)

Vậy: \(x=4\cos(10\sqrt 2 t-\dfrac{\pi}{6})(cm)\)

\(A^2=x^2+\frac{v^2}{\omega^2}\Rightarrow A=4cm.\)

 \

Điểm M thỏa mãn có vận tốc dương và li độ 2 căn 3. Tại đó pha ban đầu là -30 độ.

=> \(x=4\cos\left(10\sqrt{2}t-\frac{\pi}{6}\right).\)

\(\left\{{}\begin{matrix}v=\omega A\\a=\omega^2A\end{matrix}\right.\Leftrightarrow\left\{{}\begin{matrix}10\pi=\omega A\\2=\omega^2A\end{matrix}\right.\Rightarrow\omega=\frac{\pi}{5}\left(rad/s\right)\) \(\Rightarrow A=\frac{10\pi}{\frac{\pi}{5}}=50\left(cm\right)\)

Tại thời điểm t=0 vật qua VTCB theo chiều dương\(\Rightarrow x=0=A\cos\varphi\Rightarrow\varphi=\pm\frac{\pi}{2}\) ,\(v>0\Rightarrow\varphi=-\frac{\pi}{2}\)

\(\Rightarrow x=50\cos\left(\frac{\pi}{5}t-\frac{\pi}{2}\right)\)

Ta có:  \(\begin{cases}\Delta l_1=l_1-l_0=\frac{g}{\omega^2_1}\\\Delta l_2=l_2-l_0=\frac{g}{\omega^2_2}\end{cases}\)\(\Rightarrow\frac{\omega^2_2}{\omega^2_1}=\frac{21-l_0}{21,5-l_0}=\frac{1}{1,5}\)\(\Rightarrow l_0=20\left(cm\right)\)

\(\Rightarrow\Delta l_1=0,01\left(m\right)=\frac{g}{\omega^2_1}\Rightarrow\omega_1=10\pi\left(rad/s\right)\)

KQ = 3,2 cm