2. Refer to the diagram below. A spring-loaded launcher is aimed vertically upward, and compressed 0.13 m beyond its equilibrium position, then locked into place. The spring constant is k = 60000 N/m. A block of mass 2 kg is placed on the launcher. When the spring lock is released, the block is launched upward to a maximum height, H. What is this height, H, if the block loses 17 Joules of mechanical energy to air resistance (during its upward flight)? Show all calculations.

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2. Refer to the diagram below. A spring-loaded launcher is aimed vertically upward, and
compressed 0.13 m beyond its equilibrium position, then locked into place. The spring
constant is k 60000 N/m. A block of mass 2 kg is placed on the launcher. When the spring
lock is released, the block is launched upward to a maximum height, H. What is this height, H,
if the block loses 17 Joules of mechanical energy to air resistance (during its upward flight)?
Show all calculations.
пиши
before launch
H = ?
риши
after launch
Transcribed Image Text:= 2. Refer to the diagram below. A spring-loaded launcher is aimed vertically upward, and compressed 0.13 m beyond its equilibrium position, then locked into place. The spring constant is k 60000 N/m. A block of mass 2 kg is placed on the launcher. When the spring lock is released, the block is launched upward to a maximum height, H. What is this height, H, if the block loses 17 Joules of mechanical energy to air resistance (during its upward flight)? Show all calculations. пиши before launch H = ? риши after launch
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