einstant of the figure, two particles move in an xy plane. Particle P, has mass 6.73 kg and speed v, = 4.53 m/s, and it is at distance .78 m from point O. Particle P, has mass 2.02 kg and speed v2 = 6.42 m/s, and it is at distance d2 = 6.36 m from point O. What is agnitude of the net angular momentum of the two particles about O? P

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Chapter1: Units, Trigonometry. And Vectors
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In the instant of the figure, two particles move in an xy plane. Particle \( P_1 \) has mass 6.73 kg and speed \( v_1 = 4.53 \, \text{m/s} \), and it is at distance \( d_1 = 9.78 \, \text{m} \) from point \( O \). Particle \( P_2 \) has mass 2.02 kg and speed \( v_2 = 6.42 \, \text{m/s} \), and it is at distance \( d_2 = 6.36 \, \text{m} \) from point \( O \). What is the magnitude of the net angular momentum of the two particles about \( O \)?

**Diagram Explanation:**

- The diagram illustrates two particles, \( P_1 \) and \( P_2 \), moving in an xy coordinate plane.
- Particle \( P_1 \) is shown at a distance \( d_1 \) from the origin \( O \) and moving in the direction given by the velocity vector \( v_1 \).
- Particle \( P_2 \) is positioned at a distance \( d_2 \) from \( O \), with its velocity vector \( v_2 \) oriented along the vertical y-axis.
- The position and velocity vectors are depicted with arrows showing direction, reinforcing the respective distances and speeds of the particles.
Transcribed Image Text:In the instant of the figure, two particles move in an xy plane. Particle \( P_1 \) has mass 6.73 kg and speed \( v_1 = 4.53 \, \text{m/s} \), and it is at distance \( d_1 = 9.78 \, \text{m} \) from point \( O \). Particle \( P_2 \) has mass 2.02 kg and speed \( v_2 = 6.42 \, \text{m/s} \), and it is at distance \( d_2 = 6.36 \, \text{m} \) from point \( O \). What is the magnitude of the net angular momentum of the two particles about \( O \)? **Diagram Explanation:** - The diagram illustrates two particles, \( P_1 \) and \( P_2 \), moving in an xy coordinate plane. - Particle \( P_1 \) is shown at a distance \( d_1 \) from the origin \( O \) and moving in the direction given by the velocity vector \( v_1 \). - Particle \( P_2 \) is positioned at a distance \( d_2 \) from \( O \), with its velocity vector \( v_2 \) oriented along the vertical y-axis. - The position and velocity vectors are depicted with arrows showing direction, reinforcing the respective distances and speeds of the particles.
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