A light, rigid rod of length = 1.00 m joins two particles, with masses m₁ = 4.00 kg and m₂ = 3.00 kg, at its ends. The combination rotates in the xy-plane about a pivot through the center of the rod (see figure below). Determine the angular momentum of the system about the origin when the speed of each particle is 4.60 m/s. (Enter the magnitude to at least two decimal places in kg - m²/s.) $ magnitude direction --Select--- kg-m²/s What If? What would be the new angular momentum of the system (in kg - m²/s) if each of the masses were instead a solid sphere 15.0 cm in diameter? (Round your answer to at least two decimal places.)

A light, rigid rod of length = 1.00 m joins two particles, with masses m₁ = 4.00 kg and m₂ = 3.00 kg, at its ends. The combination rotates in the xy-plane about a pivot through the center of the rod (see figure below). Determine the angular momentum of the system about the origin when the speed of each particle is 4.60 m/s. (Enter the magnitude to at least two decimal places in kg - m²/s.) $ magnitude direction --Select--- kg-m²/s What If? What would be the new angular momentum of the system (in kg - m²/s) if each of the masses were instead a solid sphere 15.0 cm in diameter? (Round your answer to at least two decimal places.)

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(a) A light, rigid rod of length € = 1.00 m joins two particles, with masses m₁ = 4.00 kg and m₂ = 3.00 kg, at its ends. The combination rotates in the xy-plane about a pivot through the center
of the rod (see figure below). Determine the angular momentum of the system about the origin when the speed of each particle is 4.60 m/s. (Enter the magnitude to at least two decimal
places in kg • m²/s.)
magnitude
direction
mi
m₂
---Select--- ✓
x
kg .m²/s
kg .m²/s
(b) What If? What would be the new angular momentum of the system (in kg · m²/s) if each of the masses were instead a solid sphere 15.0 cm in diameter? (Round your answer to at least two
decimal places.)

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