Rocket Problem: Determining the amount of fuel burned

AI Thread Summary
The discussion focuses on calculating the initial acceleration of a rocket with a mass of 20,000 kg and a thrust of 3x10^5 N, which is determined to be 5.2 m/s^2. The second part of the problem involves finding the mass of fuel burned when the rocket's acceleration increases to 6 m/s^2 at an altitude of 5,000 m. Participants clarify that the altitude does not impact the calculation, emphasizing that the constant thrust and changing mass are key factors. The understanding is that as fuel is burned, the rocket's mass decreases, leading to increased acceleration. The solution hinges on recognizing that the thrust remains constant while the mass changes, allowing for the calculation of fuel burned.
Ockham
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The set up:
A 20,000kg rocket has a motor that generates a thrust of 3x10^5 N.


The problem:
a)What is it's initial Acceleration?

b)At an altitude of 5,000m the rockets acceleration has increased to 6 m/s^2, what mass of fuel has it burned?

Relevant equations:

F = ma

The attempt at a solution:

I found the initial Acceleration to be 5.2 by taking the difference of the thrust and the rockets weight and dividing my the initial mass.

Part two is the one I can't figure out...I don't think the height of the rocket has anything to do with the solution does it?
 
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I agree, the altitude is unnecessary. In fact, it's a bit odd because you could calculate the altitude, and I'll bet it's not 5km exactly.
 
How do I determine the amount of fuel burned?
 
Recall how you calculated the initial acceleration. Why does the acceleration increase? What, in your calculation, will have remained constant?
 
OH...thanks. I get it now. The Thrust is constant the only thing that changes is the mass. Which I can solve for.


Thank you!
Ockham
 

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