Two blocks are free to slide along the frictionless wooden track shown below. The block of mass m1 = 5.06 kg is released from the position shown, at height h = 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in the back end of the block of mass m2 = 9.60 kg, initially at rest. The two blocks never touch. Calculate the maximum height to which m1 rises after the elastic collision. m

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Chapter1: Units, Trigonometry. And Vectors
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Two blocks are free to slide along the frictionless wooden track shown below. The block of mass m1 = 5.06 kg is released from the position shown, at height h = 5.00 m above the flat part of the track. Protruding from its front end is the north pole of a strong magnet, which repels the north pole of an identical magnet embedded in the back end of the block of mass m2 = 9.60 kg, initially at rest. The two blocks never touch. Calculate the maximum height to which m1 rises after the elastic collision.
m

The image shows a physical setup involving two blocks and a curved ramp. Here's a detailed description:

- **Block \( m_1 \)**: This block is positioned at the top of the ramp.
  
- **Height \( h \)**: The vertical distance from the bottom of the ramp to the top where block \( m_1 \) is located.

- **Ramp**: The ramp is curved and transitions into a flat horizontal surface.
  
- **Block \( m_2 \)**: This block is placed on the horizontal surface at the bottom of the ramp.

The illustration represents a classic physics problem involving potential and kinetic energy, where block \( m_1 \) can slide down the ramp and interact with block \( m_2 \) upon reaching the flat surface.
Transcribed Image Text:The image shows a physical setup involving two blocks and a curved ramp. Here's a detailed description: - **Block \( m_1 \)**: This block is positioned at the top of the ramp. - **Height \( h \)**: The vertical distance from the bottom of the ramp to the top where block \( m_1 \) is located. - **Ramp**: The ramp is curved and transitions into a flat horizontal surface. - **Block \( m_2 \)**: This block is placed on the horizontal surface at the bottom of the ramp. The illustration represents a classic physics problem involving potential and kinetic energy, where block \( m_1 \) can slide down the ramp and interact with block \( m_2 \) upon reaching the flat surface.
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