What's Missing in My Momentum Solution?

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The discussion centers on a physics problem involving a glider and a skydiver, questioning the relevance of the glider's length and the correct application of momentum conservation. The initial solution attempted to calculate the glider's speed after the skydiver drops out but was marked incorrect. The key point made is that the momentum of the entire system, including both the glider and the skydiver, must be conserved. It is clarified that the glider's speed remains unchanged immediately after the skydiver releases their grip, as only the vertical velocity of the skydiver is affected. This understanding resolves the confusion regarding the problem's parameters and the application of momentum principles.
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QUESTION:
"A 10-m-long glider with a mass of 680 kg (including the passengers) is gliding horizontally through the air at when a 60 kg skydiver drops out by releasing his grip on the glider. What is the glider's speed just after the skydiver let's go?"

My problem here is that I do not understand what this problem is got to do with the length of the glider since the force is not asked, nor it does not seem to be needed.

My solution is based on the change in the momentum: m1*v1 = m2*v2 and 680kg * 30m/s = (680-60)kg * v2 and I find v2=32.9m/s and our on-line system says it is incorrect. What's wrong/missing in my solution?

Thanks.
 
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Your method is wrong because the momentum of the whole system must be conserverd, including the skydiver. But I don't see why the velocity should change. Ignoring air resistance, and if the skydiver just jumps straight down without pushing off in one direction, he would continue moving forward at the same horizontal velocity, while only his vertical velocity would change (only horizontal momentum is conserved here because of gravity). So the total horizontal momentum will only be the same if the glider continues at its speed as well.
 
Thank you. The fact that the velocity of the glider should not change seems right after your explanation.
 

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