Two hockey pucks are traveling on ice that we can consider frictionless, when they collide. A figure describing their initial conditions before the collision is provided below. Both have initial speeds of 14.8 m/s. The first puck has mass m₁ = 72 kg and is initially traveling in what we will call the x-direction. The second puck has mass m₂ = 43.1 kg and is initially traveling at an angle of A = 28.3 degrees relative to this x-direction. The pucks stick together after their collision. What will be the x-component of the combined pucks velocity right after the collision? m₂ Birds eye view before collision "Ļ X m₂ 3

Two hockey pucks are traveling on ice that we can consider frictionless, when they collide. A figure describing their initial conditions before the collision is provided below. Both have initial speeds of 14.8 m/s. The first puck has mass m₁ = 72 kg and is initially traveling in what we will call the x-direction. The second puck has mass m₂ = 43.1 kg and is initially traveling at an angle of A = 28.3 degrees relative to this x-direction. The pucks stick together after their collision. What will be the x-component of the combined pucks velocity right after the collision? m₂ Birds eye view before collision "Ļ X m₂ 3

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Two hockey pucks are traveling on ice that we can
consider frictionless, when they collide. A figure
describing their initial conditions before the collision is
provided below. Both have initial speeds of 14.8 m/s.
The first puck has mass m₁ = 72 kg and is initially
traveling in what we will call the x-direction. The
second puck has mass m₂ = 43.1 kg and is initially
traveling at an angle of A = 28.3 degrees relative to this
x-direction. The pucks stick together after their
collision. What will be the x-component of the
combined pucks velocity right after the collision?
mi
14.13
Birds eye view
before collision
A
32
L
X

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