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A plastic disk initially rotates freely and without friction on an icy surface, as shown in...
A disk with moment of inertia 9.15 × 10−3 kg∙m^2 initially rotates about its center at...
A disk with moment of inertia 9.15 × 10−3 kg∙m^2 initially rotates about its center at angular velocity 5.32 rad/s. A non-rotating ring with moment of inertia 4.86 × 10−3 kg∙m^2 right above the disk’s center is suddenly dropped onto the disk. Finally, the two objects rotate at the same angular velocity ?? about the same axis. There is no external torque acting on the system during the collision. Please compute the system’s quantities below. 1. Initial angular momentum ??...
of mass m and radius R is freely rotating at angular velocityw,spinning clockwise The moment of...
of mass m and radius R is freely rotating at angular velocityw,spinning clockwise The moment of inertia of a disk is ImR2.) While it is rotating, someone when seen from above. ( ps a thin ring of mass m and also of radius R on top of it. When the ring lands, it is initially ot otating, but friction quickly causes it to rotate along with the disk, but the rotation of the disk slows down. a) What principle of...
Calculate the angular momentum for a rotating disk, sphere, and rod. (a) A uniform disk of...
Calculate the angular momentum for a rotating disk, sphere, and rod. (a) A uniform disk of mass 16 kg, thickness 0.5 m, and radius 0.9 m is located at the origin, oriented with its axis along the y axis. It rotates clockwise around its axis when viewed from above (that is, you stand at a point on the +y axis and look toward the origin at the disk). The disk makes one complete rotation every 0.7 s. What is the...
(3) In a real experiment with setup of Figure 2, initially the disk is at rest,...
(3) In a real experiment with setup of Figure 2, initially the disk is at rest, and the hanging mass is placed 0.700 m above the floor. Then the hanging mass falls down until finally touches the floor. Measurements show the hanging mass mh-0212 kg, the spindle radius r = 0.0251 m, the disk's angular accleration α 6.612 rad/s, and the disk's final angular velocity wf 18.79 rad/s. Please compute the quantities below: (hint: Use the formulae in the lab...
A student on a piano stool rotates freely with an angular speed of 3.05 rev/s ....
A student on a piano stool rotates freely with an angular speed of 3.05 rev/s . The student holds a 1.35 kg mass in each outstretched arm, 0.789 m from the axis of rotation. The combined moment of inertia of the student and the stool, ignoring the two masses, is 5.43 kg⋅m2 , a value that remains constant. a) As the student pulls his arms inward, his angular speed increases to 3.73 rev/s . How far are the masses from...
student on a piano stool rotates freely with an angular speed of 2.85 rev/s . The...
student on a piano stool rotates freely with an angular speed of 2.85 rev/s . The student holds a 1.25 kg mass in each outstretched arm, 0.739 m from the axis of rotation. The combined moment of inertia of the student and the stool, ignoring the two masses, is 5.53 kg⋅m2 , a value that remains constant. As the student pulls his arms inward, his angular speed increases to 3.41 rev/s . How far are the masses from the axis...
A 0.6 m diameter solid disk with mass 4.2 kg is rotating with a constant angular...
A 0.6 m diameter solid disk with mass 4.2 kg is rotating with a constant angular velocity of 8t rad/sec. A) What is the tangential speed of a point 15. on the rim? B) Calculate the rotational kinetic energy of the wheel. rolling along a Find the total kinetic energy of the wheel in the previous problem if the wheel is now horizontal surface at 16 m/s. 16.
A figure skater can increase her spin rotation rate from an initial rate of 1.0 rev...
A figure skater can increase her spin rotation rate from an initial rate of 1.0 rev every 1.2 s to a final rate of 2.0 rev/s . PART A If her initial moment of inertia was 4.9 kg⋅m2 , what is her final moment of inertia? Express your answer using two significant figures. PART B How does she physically accomplish this change? Q2 A person of mass 75 kg stands at the center of a rotating merry-go-round platform of radius...
Please help me with these bith questions!! 7) Consider a solid disk with a diameter of...
Please help me with these bith questions!!
7) Consider a solid disk with a diameter of 3.2 meters and a mass of 2.5 kg rotating freely about a vertical axis at 42 rpm. A crumb weighing 0.32 kg is dropped onto the disk and sticks at a distance of 0.65 cm from the axis of rotation. a. Calculate the moment of inertia before the crumb fell. b. Calculate the moment of inertia after the crumb stuck to the disk. c....
of mass m and radius R is freely rotating at angular velocityw,spinning clockwise The moment of inertia of a disk is ImR2.) While it is rotating, someone when seen from above. ( ps a thin ring of mass m and also of radius R on top of it. When the ring lands, it is initially ot otating, but friction quickly causes it to rotate along with the disk, but the rotation of the disk slows down. a) What principle of...
Calculate the angular momentum for a rotating disk, sphere, and rod. (a) A uniform disk of mass 16 kg, thickness 0.5 m, and radius 0.9 m is located at the origin, oriented with its axis along the y axis. It rotates clockwise around its axis when viewed from above (that is, you stand at a point on the +y axis and look toward the origin at the disk). The disk makes one complete rotation every 0.7 s. What is the...
(3) In a real experiment with setup of Figure 2, initially the disk is at rest, and the hanging mass is placed 0.700 m above the floor. Then the hanging mass falls down until finally touches the floor. Measurements show the hanging mass mh-0212 kg, the spindle radius r = 0.0251 m, the disk's angular accleration α 6.612 rad/s, and the disk's final angular velocity wf 18.79 rad/s. Please compute the quantities below: (hint: Use the formulae in the lab...
A 0.6 m diameter solid disk with mass 4.2 kg is rotating with a constant angular velocity of 8t rad/sec. A) What is the tangential speed of a point 15. on the rim? B) Calculate the rotational kinetic energy of the wheel. rolling along a Find the total kinetic energy of the wheel in the previous problem if the wheel is now horizontal surface at 16 m/s. 16.
Please help me with these bith questions!!
7) Consider a solid disk with a diameter of 3.2 meters and a mass of 2.5 kg rotating freely about a vertical axis at 42 rpm. A crumb weighing 0.32 kg is dropped onto the disk and sticks at a distance of 0.65 cm from the axis of rotation. a. Calculate the moment of inertia before the crumb fell. b. Calculate the moment of inertia after the crumb stuck to the disk. c....
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