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Answer to Question #295141 in Mechanics | Relativity for zati

Question #295141

Dhabitah, a 60 kg diver is positioned so that her radius of gyration is 0.5 m as she leaves the board with an angular velocity of 4 rads-1. Compute Dhabitah’s angular velocity when she assumes a tuck position, altering her radius of gyration to 0.25 m. Explain how the diver applied the conservation of angular momentum to perform a somersault.  

1
Expert's answer
2022-02-08T10:16:19-0500

Answer

Mass of diver m=60kg

radius of gyration is K1=0.5 m

an angular velocity of ω1=\omega_1= 4 rads-1

Now

radius of gyration is K2=0.25 m

an angular velocity of ω2=\omega_2= ?

applied the conservation of angular momentum to perform a somersault

I1ω1=I2ω2ω2=I1ω1I2ω2=mK12ω1mK22I_1\omega_1=I_2\omega_2\\\omega_2=\frac{I_1\omega_1}{I_2} \\\omega_2=\frac{mK_1^2\omega_1}{mK_2^2}

Putting all values

ω2=(0.5)2×4(0.25)2=16rad/sec.\omega_2=\frac{(0.5)^2\times4}{(0.25)^2}\\=16rad/sec.


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