What is the average force exerted on a rocket during acceleration?

AI Thread Summary
The discussion revolves around calculating the average force exerted on a rocket with a mass of 7.2 x 10^4 kg that accelerates to a velocity of 100 m/s. Participants note that the problem lacks sufficient information, specifically time or distance, to determine the average force accurately. It is highlighted that without these parameters, one cannot apply the impulse-momentum theorem or kinematic equations effectively. The consensus is that the problem is unsolvable as stated, emphasizing the need for additional data to compute the average force. The conversation concludes with an understanding that both time and distance are essential for solving such physics problems.
brake4country
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Homework Statement



A rocket with a mass of 7.2 x 10^4 kg starts from rest in outer space and fires its thrusters until it is moving with a velocity of 100 m/s. What was the average force on the rocket due to the thrusters?


Homework Equations



1/2 mv^2 = Fxd

The Attempt at a Solution



I attempted this problem using conservation. However, I keep getting an answer with "d" yet I am unable to solve for d. Can anyone point me in the right direction?
 
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I suspect the problem creator wants the average force per time unit. Do you know of some physical observable which depends on force and time? (And perhaps one that is also conserved in absence of forces)

Edit: upon rereadin, the time is not specified either. Is the problem formulation exactly as stated?
 
That would be acceleration?
 
Acceleration is only dependent on force and mass. As stated, the problem is only solvable if we assume a constant force, which seems a bit confusing since the problem mentions "average force". Had you been given the time it took to accelerate the rocket, things would have been different.
 
You don't have enough information to solve the problem. Is that the complete problem statement as given to you?
 
No, the problem does not give a time. However, if we use impulse = mv = Ft, then yes, if given the time then Force could be solved. It appears that this problem does not have enough information to solve. How do we know that there is not enough information to solve this problem?
 
You'll need a time or a distance over which the acceleration occurs. Does the question specify one of these?

Even the tiniest force will eventually push a craft to any given speed, if that force is applied for long enough.
 
I see. Also, I understand now that if a problem omits both time and distance there won't be enough info. to solve. This is true for the kinematic equations. Thank you!
 

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