Consider a 0.4 kg explosive bolt that is traveling through the far reaches of outer space with a roughly constant velocity of -9.8 m/sj. At-4.5 s, the bolt spontaneously explodes into two fragments, where the first fragment has 0.1 kg, and the second fragment has 0.3kg. After the explosion, the first fragment moves with a velocity of 2.3 m/s j. What must be the y-component of the second fragment's velocity after the explosion?
Consider a 0.4 kg explosive bolt that is traveling through the far reaches of outer space with a roughly constant velocity of -9.8 m/sj. At-4.5 s, the bolt spontaneously explodes into two fragments, where the first fragment has 0.1 kg, and the second fragment has 0.3kg. After the explosion, the first fragment moves with a velocity of 2.3 m/s j. What must be the y-component of the second fragment's velocity after the explosion?
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Consider a 0.4 kg explosive bolt that is traveling through the far reaches of outer space
with a roughly constant velocity of -9.8 m/s3. At-4.5s, the bolt spontaneously explodes
into two fragments, where the first fragment has 0.1 kg, and the second fragment has
0.3 kg. After the explosion, the first fragment moves with a velocity of 2.3 m/s j. What
must be the y-component of the second fragment's velocity after the explosion?
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