19. Figure shows a simple model of a water molecule. The oxygen hydrogen separation is 0.96Å. Each hydrogen atom has mass 1.0 u, and the oxygen atom has mass 16.0 u. Find the position of the center of mass. Momentum, Impulse and collisions 20. A 3.00 kg particle has a velocity of (3.0i - 4.0j) m/s. Find its x and y components of momentum and the magnitude of its total momentum. Oxygen 0.96 Å 104.5 Hydrogen
19. Figure shows a simple model of a water molecule. The oxygen hydrogen separation is 0.96Å. Each hydrogen atom has mass 1.0 u, and the oxygen atom has mass 16.0 u. Find the position of the center of mass. Momentum, Impulse and collisions 20. A 3.00 kg particle has a velocity of (3.0i - 4.0j) m/s. Find its x and y components of momentum and the magnitude of its total momentum. Oxygen 0.96 Å 104.5 Hydrogen
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Transcribed Image Text:19. Figure shows a simple model of a water molecule. The oxygen hydrogen separation is 0.96Å. Each
hydrogen atom has mass 1.0 u, and the oxygen atom has mass 16.0 u. Find the position of the center
of mass.
Momentum, Impulse and collisions
20. A 3.00 kg particle has a velocity of (3.0i - 4.0j) m/s. Find its x and y
components of momentum and the magnitude of its total momentum.
lyos by expelling
Oxygen
0.96 Å
Hydrogen
104.5⁰
Hydrogen
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