A solid body rotates with deceleration a...

A solid body rotates with deceleration about a stationary axis with an angular deceleration `betapropsqrt(omega)`, where `omega` is its angular velocity. Find the mean angular velocity of the body averaged over the whole time of rotation if at the initial moment of time its angular velocity was equal to `omega_0`.

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In accordance with the problem, `beta_zlt0`
Thus `-(domega)/(dt)=ksqrtomega`, where k is proportionally constant
or, `-underset(omega_0)overset(omega)int(domega)/(sqrtomega)=kunderset0oversettintdt` or, `sqrt(omega)=sqrt(omega_0)-(kt)/(2)` (1)
When `omega=0`, total time of rotation `t=tau=(2sqrt(omega_0))/(k)`
Average angular velocity `lt omega gt =(int omega dt)/(int dt)=(underset(0)overset(2sqrt(omega_0)//k)int (omega_0+(k^2t^2)/(4)-ktsqrt(omega_0)dt))/(2sqrt(omega_0)//k)`
Hence `lt omega gt =[omega_0t+(k^2t^3)/(12)-k/2sqrt(omega_0)t^2]_0^(2sqrt(omega_0)//k)//2(sqrt(omega_0))/(k)=omega_0//3`

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