A block of m=5.00 kg is attached to the free end of a string wrapped around a reel of radius R=0.080 m and moment of inertia I (to bedetermined) The tension in the string is T-25.6 N. The reel is a solid uniform disk, free to rotate about an axis passing through tocenter, as shown. When released, the reel accelerates counterclockwise and the block accelerates downwad Using Newton's Laws(linear and rotational motion), determine the moment of inertia I of the pulley. (Consider the linear acceleration of the mass and thetorque on the pulley Careful with (+/-) directions)00041 kg m²0 0.012 kg-m²00096 kg m²0 0.035 kg m²0.053 kg-m²

A block of m5.00 kg is attached to the free end of a string wrapped around a reel of radius R0.080 m and moment of inerta Ito be determined) The tension in the string is T 25.6 N. The reel is a solid uniform disk, free to rotate about an axis passing through to center, as shown. When released, the reel accelerates counterlockets and the block accelerates doemad Using Newton's Laws (near and rotational motion), determine the moment of inertial of the pulley. (Consider the linear acceleration of the mass and the torque on the pulley Careful with (+/-) directions)

A block of m5.00 kg is attached to the free end of a string wrapped around a reel of radius R0.080 m and moment of inerta Ito be determined) The tension in the string is T 25.6 N. The reel is a solid uniform disk, free to rotate about an axis passing through to center, as shown. When released, the reel accelerates counterlockets and the block accelerates doemad Using Newton's Laws (near and rotational motion), determine the moment of inertial of the pulley. (Consider the linear acceleration of the mass and the torque on the pulley Careful with (+/-) directions)