# Angular Momentum

### Topic Page

Angular Momentum### Questions

- Does angular momentum change with radius?
- How does torque affect angular momentum?
- How can I calculate the angular momentum of the Earth?
- How does angular momentum create a perpendicular force? How does angular momentum create a perpendicular force? How does angular momentum create a perpendicular force?
- What is angular momentum?
- How is angular momentum quantized?
- What is the moment of inertia of a 5.00 kg 34.0 cm radius hoop about its normal axis?
- How is angular momentum related to torque?
- How does friction affect angular momentum?
- How can i calculate orbital angular momentum of an electron?
- Why is angular momentum conserved but not linear?
- Why is angular momentum a cross product?
- Why is angular momentum conserved in a satellite?
- A figure skater spinning at 3.4 rad/sec with a moment of inertia of 3.2 kgm2 puts his arms out so that his new moment of inertia is 4.5 kgm2. What is his new angular speed?
- What is the angular momentum of a gyroscope that is a solid cylinder with a radius of .24 m, a mass of 15 kg and a angular velocity of 140 rad/sec?
- A ballerina spinning at 1.2 rev/sec with a moment of inertia of 2.6 kgm2 pulls her arms in so that her new moment of inertia is 1.8 kgm2. What is her new angular speed?
- Why is angular momentum perpendicular?
- What is the angular momentum of earth?
- What is the difference between angular momentum and linear momentum?
- How is angular momentum conserved for rotating systems?
- Why is angular momentum important in figure skating?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #4 m# at a frequency of # 1 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #4 m# at a frequency of # 4 Hz #?
- What is the angular momentum of an object with a mass of #7 kg# that moves along a circular path of radius #4 m# at a frequency of # 4 Hz #?
- What is the angular momentum of an object with a mass of #7 kg# that moves along a circular path of radius #12 m# at a frequency of # 4 Hz #?
- What is the angular momentum of an object with a mass of #7 kg# that moves along a circular path of radius #12 m# at a frequency of # 4 Hz #?
- What is the angular momentum of an object with a mass of #7 kg# that moves along a circular path of radius #12 m# at a frequency of # 2/3 Hz #?
- What is the angular momentum of an object with a mass of #3 kg# that moves along a circular path of radius #12 m# at a frequency of # 2/3 Hz #?
- What is the angular momentum of an object with a mass of #3 kg# that moves along a circular path of radius #9 m# at a frequency of # 2/3 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #9 m# at a frequency of # 2/3 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #9 m# at a frequency of # 2/9 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #9 m# at a frequency of # 8 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #4 m# at a frequency of # 8 Hz #?
- What is the angular momentum of an object with a mass of #2 kg# that moves along a circular path of radius #4 m# at a frequency of # 12 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #8 m# at a frequency of # 12 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #8 m# at a frequency of # 6 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #3 m# at a frequency of # 6 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #3 m# at a frequency of # 16 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #3 m# at a frequency of # 18 Hz #?
- What is the angular momentum of an object with a mass of #5 kg# that moves along a circular path of radius #3 m# at a frequency of # 15 Hz #?
- What is the angular momentum of an object with a mass of #4 kg# that moves along a circular path of radius #30 m# at a frequency of # 15 Hz #?
- What is the angular momentum of an object with a mass of #4 kg# that moves along a circular path of radius #2 m# at a frequency of # 15 Hz #?
- What is the angular momentum of an object with a mass of #4 kg# that moves along a circular path of radius #2 m# at a frequency of # 1 Hz #?
- What is the angular momentum of an object with a mass of #7 kg# that moves along a circular path of radius #2 m# at a frequency of # 5 Hz #?
- What is the angular momentum of an object with a mass of #7 kg# that moves along a circular path of radius #2 m# at a frequency of # 19 Hz #?
- What is the angular momentum of a rod with a mass of #7 kg# and length of #6 m# that is spinning around its center at #2 Hz#?
- What is the angular momentum of a rod with a mass of #7 kg# and length of #6 m# that is spinning around its center at #7 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #6 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #5 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #9 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of # 6 kg# and length of #9 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of # 6 kg# and length of #4 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of # 6 kg# and length of #4 m# that is spinning around its center at #13 Hz#?
- What is the angular momentum of a rod with a mass of # 6 kg# and length of #4 m# that is spinning around its center at #15 Hz#?
- What is the angular momentum of a rod with a mass of # 8 kg# and length of #4 m# that is spinning around its center at #15 Hz#?
- What is the angular momentum of a rod with a mass of # 8 kg# and length of #4 m# that is spinning around its center at #12 Hz#?
- What is the angular momentum of a rod with a mass of # 8 kg# and length of #4 m# that is spinning around its center at #9 Hz#?
- What is the angular momentum of a rod with a mass of # 8 kg# and length of #4 m# that is spinning around its center at #8 Hz#?
- What is the angular momentum of a rod with a mass of # 8 kg# and length of #4 m# that is spinning around its center at #5 Hz#?
- What is the angular momentum of a rod with a mass of # 8 kg# and length of #7 m# that is spinning around its center at #5 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #7 m# that is spinning around its center at #5 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #7 m# that is spinning around its center at #13 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #7 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #9 m# that is spinning around its center at #3 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #9 m# that is spinning around its center at #52 Hz#?
- What is the angular momentum of a rod with a mass of #2 kg# and length of #9 m# that is spinning around its center at #12 Hz#?
- How are angular acceleration, angular momentum, moment of inertia and torque related?
- Explain the difference between angular momentum and torque?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #2 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #24 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #24 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #24 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #5 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #24 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #2 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #24 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #2 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #21 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #2 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #21 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #2 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #21 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of rotation about its center changes from #4 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #21 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of rotation about its center changes from #4 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #16 cm# and #18 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of rotation about its center changes from #4 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of rotation about its center changes from #4 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #4 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #4 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #9 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #9 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #18 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #12 cm# and #15 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #15 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of rotation about its center changes from #7 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of rotation about its center changes from #3 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of rotation about its center changes from #3 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of rotation about its center changes from #3 Hz# to #5 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of rotation about its center changes from #1 Hz# to #5 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #1 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #12 cm#, respectively, and a mass of #9 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #1 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #12 cm#, respectively, and a mass of #9 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #1 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #14 cm#, respectively, and a mass of #9 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #1 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #14 cm#, respectively, and a mass of #9 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #5 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #11 cm#, respectively, and a mass of #9 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #5 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #5 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #11 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #9 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #9 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #9 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #9 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #6 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #6 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #13 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #6 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #17 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #6 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #5 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #2 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #5 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #5 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #5 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #9 cm#, respectively, and a mass of #7 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #3 cm# and #9 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #3 cm# and #9 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #3 cm# and #9 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #3 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #13 cm# and #15 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #13 cm# and #15 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #13 cm# and #15 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #2 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #16 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #2 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #16 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #16 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #1 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #16 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #3 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #6 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #9 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #18 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #19 Hz# to #18 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #19 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #23 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #16 cm#, respectively, and a mass of #4 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #16 cm#, respectively, and a mass of #9 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #16 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #6 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #3 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #15 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #3 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #10 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #3 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #3 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #15 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #3 Hz# to #2 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #15 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #3 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #15 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #4 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #12 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #4 Hz# to #7 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #12 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #4 Hz# to #1 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #4 cm#, respectively, and a mass of #12 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #1 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #5 cm#, respectively, and a mass of #12 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #5 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #4 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #5 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #6 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #5 cm#, respectively, and a mass of #8 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #8 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #5 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #5 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #12 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #5 cm#, respectively, and a mass of #5 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #5 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #10 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #5 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #7 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #7 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #7 cm#, respectively, and a mass of #6 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #11 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #8 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #11 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #15 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #14 Hz# to #11 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #15 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #14 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #15 cm#, respectively, and a mass of #3 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #15 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #15 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #6 cm# and #12 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #8 cm# and #18 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #18 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #9 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #18 cm#, respectively, and a mass of #1 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #16 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #4 cm# and #18 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #16 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #18 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #16 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #12 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #16 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #12 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #15 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #12 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #24 Hz# to #12 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #2 cm# and #12 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #24 Hz# to #18 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #12 cm#, respectively, and a mass of #2 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #24 Hz# to #18 Hz#, by how much does its angular momentum change?
- A cylinder has inner and outer radii of #9 cm# and #12 cm#, respectively, and a mass of #7 kg#. If the cylinder's frequency of counterclockwise rotation about its center changes from #24 Hz# to #18 Hz#, by how much does its angular momentum change?
- Question #25b65
- Question #cd79d
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at a rate of #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at a rate of #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at a rate of #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at a rate of #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at a rate of #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #2/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #1/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #5/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #5/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #5/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #1/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #1/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #2/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #8/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #6/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #6/7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #6/7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #6/7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #6/7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #5/7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #2/7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #2/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/4 m#. If a point on the edge of the disk is moving at #5/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #7/4 m#. If a point on the edge of the disk is moving at #5/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #7/4 m#. If a point on the edge of the disk is moving at #5/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #7/4 m#. If a point on the edge of the disk is moving at #7/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #7/4 m#. If a point on the edge of the disk is moving at #7/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #7/2 m#. If a point on the edge of the disk is moving at #7/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #7/2 m#. If a point on the edge of the disk is moving at #15/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #15/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #15/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #13/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #9/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #9/8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #5/8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #5/8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #9/8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #8 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3/5 m#. If a point on the edge of the disk is moving at #3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3/5 m#. If a point on the edge of the disk is moving at #1 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3/5 m#. If a point on the edge of the disk is moving at #1/6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #3/5 m#. If a point on the edge of the disk is moving at #5/6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #8/5 m#. If a point on the edge of the disk is moving at #4/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #8/5 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #7/5 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #7/5 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #7/5 m#. If a point on the edge of the disk is moving at #8/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #7/5 m#. If a point on the edge of the disk is moving at #8/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #7/5 m#. If a point on the edge of the disk is moving at #5/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #11 kg# and a radius of #4/7 m#. If a point on the edge of the disk is moving at #2/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #11 kg# and a radius of #4/7 m#. If a point on the edge of the disk is moving at #8/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #13 kg# and a radius of #4/7 m#. If a point on the edge of the disk is moving at #8/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #16 kg# and a radius of #4/7 m#. If a point on the edge of the disk is moving at #8/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #16 kg# and a radius of #3/7 m#. If a point on the edge of the disk is moving at #8/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #16 kg# and a radius of #3/7 m#. If a point on the edge of the disk is moving at #7/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #16 kg# and a radius of #3/8 m#. If a point on the edge of the disk is moving at #7/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #3/8 m#. If a point on the edge of the disk is moving at #7/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #3/8 m#. If a point on the edge of the disk is moving at #7/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #3/8 m#. If a point on the edge of the disk is moving at #9/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #3/8 m#. If a point on the edge of the disk is moving at #9/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #9/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #3/2 m#. If a point on the edge of the disk is moving at #5/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/7 m#. If a point on the edge of the disk is moving at #5/2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/7 m#. If a point on the edge of the disk is moving at #5/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #3/7 m#. If a point on the edge of the disk is moving at #7/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #14 kg# and a radius of #3/4 m#. If a point on the edge of the disk is moving at #7/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #14 kg# and a radius of #5/4 m#. If a point on the edge of the disk is moving at #7/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #14 kg# and a radius of #5/4 m#. If a point on the edge of the disk is moving at #2/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #5/4 m#. If a point on the edge of the disk is moving at #2/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #5/4 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #15 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #4/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #5/2 m#. If a point on the edge of the disk is moving at #6/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #1/2 m#. If a point on the edge of the disk is moving at #6/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #1/2 m#. If a point on the edge of the disk is moving at #6/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #1/2 m#. If a point on the edge of the disk is moving at #12/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #1/2 m#. If a point on the edge of the disk is moving at #12/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #1/5 m#. If a point on the edge of the disk is moving at #12/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #8/5 m#. If a point on the edge of the disk is moving at #12/5 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #6 kg# and a radius of #8/5 m#. If a point on the edge of the disk is moving at #7/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #8/5 m#. If a point on the edge of the disk is moving at #7/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #13 kg# and a radius of #8/5 m#. If a point on the edge of the disk is moving at #7/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #13 kg# and a radius of #4/5 m#. If a point on the edge of the disk is moving at #7/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #13 kg# and a radius of #4/5 m#. If a point on the edge of the disk is moving at #7/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #18 kg# and a radius of #4/5 m#. If a point on the edge of the disk is moving at #7/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #18 kg# and a radius of #9/4 m#. If a point on the edge of the disk is moving at #7/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #18 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #7/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #18 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #2/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #7/3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #15 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #15 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #7 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #15 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #15 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #12 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #16 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #2 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #16 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #7 m#. If a point on the edge of the disk is moving at #3 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #7 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #7 m#. If a point on the edge of the disk is moving at #9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #1 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #3 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #5 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #7 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #7 m#. If a point on the edge of the disk is moving at #8 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #7 m#. If a point on the edge of the disk is moving at #12 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #4 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #12 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #12 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #4 m#. If a point on the edge of the disk is moving at #15 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #9 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #15 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #19 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #6 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #5 kg# and a radius of #8 m#. If a point on the edge of the disk is moving at #6 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #8 m#. If a point on the edge of the disk is moving at #2 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #8 m#. If a point on the edge of the disk is moving at #14 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #7 kg# and a radius of #8/3 m#. If a point on the edge of the disk is moving at #1/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #8/3 m#. If a point on the edge of the disk is moving at #11/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #3 kg# and a radius of #8/9 m#. If a point on the edge of the disk is moving at #11/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #8/9 m#. If a point on the edge of the disk is moving at #11/4 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- A solid disk, spinning counter-clockwise, has a mass of #2 kg# and a radius of #8/9 m#. If a point on the edge of the disk is moving at #11/9 m/s# in the direction perpendicular to the disk's radius, what is the disk's angular momentum and velocity?
- Question #fa936
- Question #315fe
- A solid cylinder rolls down an inclined plane of height 3 m and reaches the bottom of plane with angular velocity of 2√2 rad/s. The radius of the cylinder must be ?
- Question #cae9a
- Question #ce032
- Question #d8ba2
- If the rod makes one revolution every 0.736 s after the puck is caught, what was the puck's speed just before it hit the rod? (See details).