If there is a change of angular momentum from J to 4J in 4s, then the torque is ___________ a) (3/4) J b) 1J c) (5/4) J d) (4/3) J
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If there is a change of
a) (3/4) J
b) 1J
c) (5/4) J
d) (4/3) J
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- having negligible masses in the figure, and Solid rods running along the y-axis connect the three particles. If this system rotates around the x-axis with an angular velocity of 3.00 rad/s, what would be the total rotational kinetic energy? 4.00 kg y = 3.00 m 12 - 2.00 kg y - -2.00 m 3.00 kg y = -4.00 m A) 765 J B) 231 J C) 265 J D) 357 J E) 414 JA block of 50 kg is attached to a cable. The cable is then attached to a rotating assembly with a mass moment of inertia of 10 kg-m^2. The bearing friction applied at the rotating assembly is equivalent to a couple of 50 N-m CCW. The block's initial downward speed is 1 m/s. 0.5 m 50 kg 3. Which of the following is closest to the work done by the weight of the 50-kg block after the rotating assembly has rotated 0.8 radians CW? 196.2 J 105.7 J -196.2 J -135.4 J he following is closest to the total work done by the system after the rotating rotated 0.8 rad CW? 5. Which of the following is closest to the speed of the 50-kg block after the rotating assembly rotated 0.8 rad CW?The angular velocity of a pulley of mass m and radius R changes with time w(t) = 60e-0.02t (rad/s). How m any cycles does the pulley make until it stops? Take =3. A) 150 В) 200 С) 125 D) 100 E) 500
- If initial angular velocity is 0 deg/s (w;), which of the following situations would result in the greatest final angular velocity (w;)? (T = torque applied; Dt-time that torque is applied; I = moment of inertia) OT-50 Nm t = 2s 1 = 1 kgm^2 T= 50 Nm t = 4s 1 = 2 kgm^2 OT-100 Nm ?t=1s 1 = 2 kgm^2 OT-100 Nm ?t=2s 1 = 1 kgm^2 - 2 | M 16 46 6 Y & 7 18 U * 8 hp fg ( 9 ho ▶11 O fm P 112 74° +Rotational quantities must be treated as vectors for general rotational motion, such as when the axis of rotation can change directions. Use the right hand rule for angular velocity to determine the direction of the angular velocity for the motion shown below. +y +x +z (out) O +x O zero O -y O +z O +y O -x -z O o o o o oThe following figure shows four bars of equal mass rotating about their center. Rank their rotational kinetic energies from largest to smallest. L Wo 4/12 2010 WAWA 412 240 4 w, 13
- A large plate is initially rotating about an axis through its center with angular velocity of 3w, as shown in the figure. The upper plate is initially not rotating and has the same mass but half the radius as the large plate. The small plate is lowered onto the large plate, and after a short time they will rotate together and willI have the same final angular velocity. Which of the following best describes the ratio of the kinetic energy of the system before the collision to after the collision (Ratio KEbefore KEafter %D 3w. 1.50 1.25 1.00 0.80 0.67Could I have help with this physics question?Using cross product find the moment about point A due to 10 kN force shown. 10 kN 300 mm 30° В C 400 mm A Select one: O -1.96k kNm -1.96k kNm anticlockwise O 4.96k kNm O (1.5i - 3.46j) kNm ---- 0--5
- q4A rotating solid sphere, (mass = 1kg, radius = 25 cm) starts to spin from rest with a constant angular acceleration of a =1.5 rad / s². After 5s, what is: • The angular velocity of the sphere • The number of rotations (please include fractional answers) The rotational kinetic energy of the sphere if I =MRA uniform solid sphere, of radius R = 1.0 m and mass M = 5.0 kg, rotates freely with a constant angular speed o = 2.0 rad/s about a vertical axis tangent to the surface of the sphere, as shown in Figure . Find the rotational kinetic energy of the sphere. A) 14 J В) 10 J C) 22 J D) 28 J E) 36 J SIxe